Philadelphia, PA USA Program Book Symposia/2014 CSSS U PENN Program...Particles in interfaces, ﬁ...

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JUNE 22ND – JUNE 25TH, 2014University of PennsylvaniaPhiladelphia, PA USA

ProgramBook

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Welcome

Dear Colleagues,

It is our tremendous pleasure to welcome you to the 88th ACS Colloids and Surface Symposium. At the University of Pennsylvania, in the LRSM, the School of Arts and Sciences and in the School of Engineering and Applied Science, we have a large cohort of faculty, students and postdocs who work synergistically in this fi eld. We are all particularly excited to serve as your hosts because of our love of the subject and of you, the global research community in the fi eld.

The program for the conference includes 2 plenaries, 47 keynote and invited talks, and 678 contributed talks and posters from 615 researchers working in leading institutes around the globe - drawn from 28 countries! We are sure that you will fi nd the caliber of the talks and the scientifi c interactions stimulating over the coming days.

So we bid you welcome to the conference, to the campus, and to the City of Philadelphia.

John C. CrockerKathleen J. StebeArjun G. YodhSymposium co-chairs

John Crocker Kate Stebe Arjun G. Yodh

®

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Table of Contents

Welcome Message 3

Table of Contents 5

Organizing Committee 6

Symposium Committees & 8Support Staff

Program at a Glance 11

Keynote & Invited Speakers 21at a Glance

Symposium Sponsors 25

Symposium Exhibitors 28

MRSEC Sponsors 30

Plenary & Award Lectures 33

Technical Program 39

Author Index 206

Maps & Floor Plans 225

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ACS 2014 Colloid & Surface Science SymposiumOrganizing Committee

Symposium Co-Chairs:John CrockerProfessor of Chemical and Biomolecular EngineeringKate StebeRicher & Elizabeth Goodwin Professor of Chemical and Biomolecular Engineering, Deputy Dean for Research, School of Engineering and Applied ScienceArjun YodhJames M. Skinner Professor of Science, Department of Physics and Astronomy, and Director of The Laboratory for Research on the Structure of Matter (LRSM)

Sessions and Coorganizers

Active ColloidsZvonimir Dogic, Brandeis UniversityChristina Marchetti, Syracuse University

BiocolloidsDennis Discher, University of PennsylvaniaMichael Rubinstein, UNC Chapel Hill

BiointerfacesRavi Radakrishnan, University of PennsylvaniaTobias Baumgart, University of Pennsylvania

Colloidal and Surface ForcesEric Furst, University of DelawareRay Dagastine, University of Melbourne

Directed AssemblyCherie Kagan, University of PennsylvaniaVinothan Manoharan, Harvard University

ElectrokineticsDarrell Velegol, Penn State UniversityAditya Khair, Carnegie Mellon University

Emulsions, Bubbles and FoamsDoug Durian, University of PennsylvaniaJasna Brujic, New York University

Environmental ScienceDaniel Strongin, Temple UniversityHoward Fairbrother, Johns Hopkins University

General PapersJoelle Frechette, Johns Hopkins UniversityMike Bevan, Johns Hopkins University

Glassy and Jammed SystemsRob Riggleman, University of PennsylvaniaAndrea Liu, University of PennsylvaniaEric Weeks, Emory University

Microfl uidicsPaulo Arratia, University of PennsylvaniaKevin Turner, University of Pennsylvania

Molecular Self-AssemblyDan Hammer, University of PennsylvaniaDarrin Pochan University of Delaware

Particles in interfaces, fi elds and liquid crystalsTony Dinsmore, U. Massachusetts AmherstChris Santangelo, U. Massachusetts AmherstMohamed Gharbi, University of Pennsylvania Patchy and Janus ParticlesDaeyeon Lee, University of PennsylvaniaAlberto Striolo, University College London

Rheology and DynamicsChinedum Osuji, Yale UniversityKelly Schultz, Lehigh University

Wetting and AdhesionShu Yang, University of PennsylvaniaEric Dufresne, Yale University

Poster SessionIlona Kretzschmar, City College New YorkRaymond Tu, City College New YorkValeria Garbin, Imperial College LondonLorenzo Botto, Queen Mary Univ. of London

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Symposium Committees & Support Staff

ACS Division of Colloid and Surface Science,Symposium Committee

Mike Bevan (chair), Johns Hopkins UniversityIlona Kretzschmar, City College of New YorkJoelle Frechette, Johns Hopkins University

LaMer Award Committee

Daeyeon Lee (Chair) - University of Pennsylvania Joelle Frechette - Johns Hopkins UniversityAmanda Haes - University of Iowa Matthew Helgeson - UC Santa Barbara Unilever Award Committee

P. Somasundaran (Chair) - Columbia UniversityK.P. Ananthapadmanabhan - Unilever Ray Farinato - Cytec Nicholas L. Abbott - University of Wisconsin Julian Eastoe - University of Bristol Patricia Aikens - BASF

Symposium Support Staff

Exhibitor and Sponsor Coordination:Jim McGonigle and Dorothea Coleman

Event Planning:Jim McGonigle, Dorothea Coleman & Caitlin Druding

Symposium Logistics, Registration and Housing:Caitlin Druding and Penn Conference Services

Program Booklet, Website and Promotional Materials:Felice Macera

Technical Program Support and Website:Megan Illig and the OASIS team atCoe Truman Technologies, Inc.

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Program at a Glance

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SUNDAY, 22 JUNE 2014

Meeting Registration (2:00 to 6:00 PM)

Houston Hall

Welcome Reception(5:30 to 7:30 PM)

Singh Center for Nanotechnology

MONDAY, 23 JUNE 2014

Opening & Welcome: Eduardo GlandtPlenary 1: David Weitz(8:10 to 9:20 AM)

Irvine Auditorium

Coffee Break(9:20 to 9:50 AM)

Houston Bodek and Hall of Flags& DRL Lobby

TECHNICAL SESSIONSMON (9:50AM to 12:10 PM)

LOCATION

Active Colloids 1: Spherical particles I DRL A6

Biocolloids 1: Proteins Houston Ben Franklin

Biointerfaces 1: Engineered Interfaces Houston Class of ‘49

Colloidal and Surface Forces 1: Entropic Systems

College Hall 200

Directed Assembly 1: DNA-mediated assembly

Meyerson B1

Emulsions, Bubbles and Foams 1: Mechanical responses of foams, elastomers and interfaces

DRL A1

Environmental Science 1 Houston Golkin

General Papers 1: Wetting Towne Heilmeier

Glasses/Jamming 1: Rheology Skirkanich Berger

Microfl uidics: Drops & Bubbles DRL A5

Molecular Self-Assembly 1 Cohen Terrace

Particles in interfaces, fi elds and liquid crystals 1

Irvine Amado

Patchy and Janus Particles 1: Synthesis and Assembly of Patchy Particles

Irvine Café ‘58

Rheology and Dynamics 1 DRL A7

Wetting and Adhesion 1: Superhydrophobic and Superoleophobic Surfaces

Levine Wu and Chen


LUNCH: 12:10 – 1:30 PM(box lunches)

Houston Bodek and Hall of Flags

TECHNICAL SESSIONSMON (1:30PM to 3:10 PM)

LOCATION

Active Colloids 2: Rods and liquid crystals

DRL A6

Biocolloids 2: Interactions I Houston Ben Franklin

Biointerfaces 2: Amphiphile Biophysics Houston Class of ‘49

Colloidal and Surface Forces 2: kT Interactions

College Hall 200

Directed Assembly 2: Targeted assembly

Meyerson B1

Electrokinetics: General DRL A5

Emulsions, Bubbles and Foams 2: Dynamical evolution of foams and emulsions

DRL A1


General Papers 2: Assembly Towne Heilmeier

Glasses/Jamming 2: Vibrations/Confi nement

Skirkanich Berger



Irvine Amado

Patchy and Janus Particles 2: Patchy and Janus Particles as Functional Materials

Irvine Café ‘58


Wetting and Adhesion 2: Wetting on Structured Surfaces

Levine Wu and Chen

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COFFEE BREAK(3:10 to 3:40 PM)


TECHNICAL SESSIONSMON (3:40PM to 5:20 PM)

LOCATION

Active Colloids 3: Spherical particles II DRL A6

Biocolloids 3: Interactions II HoustonBen Franklin

Biointerfaces 3: Probes and Techniques

HoustonClass of ‘49

Colloidal and Surface Forces 3: Films College Hall 200

Directed Assembly 3: Self-Assembly Meyerson B1

Electrokinetics: Polarizable particles and membranes

DRL A5

Emulsions, Bubbles and Foams 3: Tailoring emulsion stability with particles

DRL A1


General Papers 3: Interactions Towne Heilmeier

Glasses/Jamming 3: Vibrations/active materials

Skirkanich Berger



Irvine Amado

Patchy and Janus Particles 3: Assembly and Phase Behavior of Patchy Colloids

Irvine Café ‘58


Wetting and Adhesion 3: Wetting and Condensation

LevineWu and Chen

POSTER SESSIONSMON (5:30PM to 7:30 PM)

LOCATION

Poster Session: Bio-Colloids HoustonBodek Lounge

Poster Session: Fundamentals of Colloids

HoustonHall of Flags

Poster Session: Fundamentals of Interfaces

HoustonBodek Lounge

Poster Session: Materials, Environ-ment, and Energy Applications

HoustonHall of Flags

TUESDAY, 24 JUNE 2014

Plenary 2: Daan Frenkel(8:20 to 9:20 AM)

Irvine Auditorium



TECHNICAL SESSIONSTUE (9:50AM to 12:10 PM)

LOCATION

Active Colloids 4: Biological swimmers DRL A6

Biocolloids 4: Self-Assembly HoustonBen Franklin

Biointerfaces 4: Mechanics I HoustonClass of ‘49

Colloidal and Surface Forces 4: Bubbles and Dynamics

College Hall 200

Directed Assembly 4: Evaporative and convective assembly

Meyerson B1

Emulsions, Bubbles and Foams 4: Biomimetic and biocompatible emulsions and foams

DRL A1


General Papers 4: Particles and Aggregation

Towne Heilmeier

Glasses/Jamming 4: Foams, emulsions, colloids, etc.

Skirkanich Berger

Microfl uidics: Sorting, Self-Assembly and Transport

DRL A5



Irvine Amado


Irvine Café ‘58


Wetting and Adhesion 4: Interfacial Tension, Adhesion and Friction

LevineWu and Chen

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TECHNICAL SESSIONSTUE (1:30PM to 3:10 PM)

LOCATION

Active Colloids 5: New mechanisms DRL A6

Biocolloids 5: Contrast Agents Houston Franklin

Biointerfaces 5: Mechanics II HoustonClass of ‘49

Colloidal and Surface Forces 5: Electrostatics

College Hall 200

Directed Assembly 5: Co-assembly Meyerson B1

Electrokinetics: Drops and Particles DRL A5

Emulsions, Bubbles and Foams 5: Control of surface active species at interfaces

DRL A1


General Papers 5: Particles at Interfaces

Towne Heilmeier

Glasses/Jamming 5: Theories and Models

Skirkanich Berger



Irvine Amado

Patchy and Janus Particles 5: Patchy and Janus Particles as Solid Surfactants

Irvine Café ‘58


Wetting and Adhesion 5: Capillary Wetting and Adhesion

LevineWu and Chen




TECHNICAL SESSIONSTUE (3:40PM to 5:20 PM)

LOCATION

Active Colloids 6: External fi elds DRL A6

Biocolloids 6: Mostly Contrast Agents Houston Franklin

Biointerfaces 6: Interfacial binding phenomena


Colloidal and Surface Forces 6: Nanoparticles

College Hall 200

Directed Assembly 6: Field-assisted assembly I

Meyerson B1

Electrokinetics: General DRL A5

Emulsions, Bubbles and Foams 6: Fabrication of foam/emulsion-templated materials

DRL A1


General Papers 6: Complex Mixtures Towne Heilmeier

Glasses/Jamming 6: Shear thickening and mechanical responses

Skirkanich Berger



Irvine Amado

Patchy and Janus Particles 6: Irvine Café ‘58


Wetting and Adhesion 6: Antifouling and Measurement

LevineWu and Chen

Unilever Award Lecture(5:30 to 6:30 PM)

Irvine Auditorium

SYMPOSIUM BANQUET

PENN MUSEUM

Reception: 6:30 – 7:30 PM Egyptian Gallery Chinese Rotunda

Dinner: 7:30 – 9:30 PM Kintner-Dietrich and Widener

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WEDNESDAY, 25 JUNE 2014

Victor K. LaMer Award Lecture(8:20 to 9:20 AM)

Irvine Auditorium



TECHNICAL SESSIONSWED (9:50AM to 12:10 PM)

LOCATION

Biocolloids 7: Drug Carriers Houston Franklin

Biointerfaces 7: Biochemistry and Biomedical Applications


Colloidal and Surface Forces 7: Surface Forces and Friction

College Hall 200

Directed Assembly 7: Templated assembly

Meyerson B1

Emulsions, Bubbles and Foams 7: Emulsions coated with nanoparticles, polymeric shells and metals / Armored emulsions

DRL A1


General Papers 7: Polymers and Scattering I

Towne Heilmeier

Glasses/Jamming 7: Order and Disorder

Skirkanich Berger

Microfl uidics: Particle Synthesis DRL A5



Irvine Amado


Wetting and Adhesion 7: Dynamic Wetting and Models

LevineWu and Chen



WEDNESDAY, 25 JUNE 2014

TECHNICAL SESSIONSWED (1:30PM to 3:10 PM)

LOCATION

Biocolloids 8 Houston Franklin

Biointerfaces 8: Bacterial biointerfaces HoustonClass of ‘49

Colloidal and Surface Forces 8: Dispersions

College Hall 200

Directed Assembly 8: Field-assisted assembly II

Meyerson B1

Emulsions, Bubbles and Foams 8: Particulate shape control in emulsion droplets

DRL A1

General Papers 8: Polymers and scattering II

Towne Heilmeier

Glasses/Jamming 8: Colloids Skirkanich Berger

Microfl uidics: Multiphase & Interfacial Phenomena

DRL A5



Irvine Amado

Wetting and Adhesion 8: Wettability in Complex Soft Matter

LevineWu and Chen



TECHNICAL SESSIONSWED (3:40PM to 5:20 PM)

LOCATION

Biointerfaces 9: Amphiphile Monolayers HoustonClass of ‘49

Colloidal and Surface Forces 9: Modeling

College Hall 200

Directed Assembly 9: Field-assisted assembly III

Meyerson B1

Emulsions, Bubbles and Foams 9: Emulsion synthesis approaches

DRL A1

General Papers 9: Electrochemistry and Ionic Liquids

Towne Heilmeier

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Keynote andInvited Speakers

at a Glance

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KEYNOTE and INVITED SPEAKERS at a GLANCE

MONDAY KEYNOTE and INVITED SPEAKERS(in chronological order):

# Speaker Time Location

2.8.

77.89.29.35.54.50.68.51.

M.E. CatesS. Fraden

A.H. MuellerG.H. McKinleyOleg GangM. DenninM. WyartD. VelegolM. RubinsteinH. Butt

9:50-10:309:50-10:30

9:50-10:309:50-10:3010:30-11:1010:30-11:1010:30-11:1011:10-11:3011:10-11:5011:30-12:10

DRL A6HoustonBen FranklinIrvine Café 58Levine Wu & ChenMeyerson B1DRL A1Skirkanich BergerTowne HeilmeierCohen TerraceTowne Heilmeier

131.135.151.145.112.

van BlaaderenM. ManningM. E. HelgesonP. ChaikinM. Bevan

1:30-2:101:30-2:101:30-2:102:10-2:502:30-3:10

Towne HeilmeierSkirkanich BergerDRL A7Irvine AmadoCollege Hall 200

192.196.214.202.163.182.186.199.

J.D. FortnerR. DagastineF. SciortinoL. BerthierL. BocquetS. GlotzerT.M. SquiresJ. Frechette

3:40-4:203:40-4:003:40-4:204:00-4:404:40-5:204:40-5:204:40-5:204:40-5:00

Houston GolkinTowne HeilmeierIrvine Café 58Skirkanich BergerDRL A6Meyerson B1DRL A5Towne Heilmeier

TUESDAY KEYNOTE and INVITED SPEAKERS (in chronological order):


393.399.422.362.407.419.376.415.359.

M. van HeckeR. KarnikJ. VermantZenge XuS. KumarD. PineF. PincetL. RevenI. Szleifer

9:50-10:309:50-10:309:50-10:3010:30-11:1010:30-11:1010:30-11:1010:50-11:3011:10-11:5011:30-12:10

Skirkanich BergerDRL A5DRL A7College Hall 200Cohen TerraceIrvine Café 58DRL A1Irvine AmadoHouston Class of ‘49

500.473.478.457.461.470.474.

S. MoraV. GarbinP. CharbonneauC.B. MurrayC.R. BuieJ.C. HemmingerS.H. Behrens

1:30-2:102:10-2:302:10-2:502:30-3:102:30-3:102:30-3:102:30-2:50

Levine Wu & ChenTowne HeilmeierSkirkanich BergerMeyerson B1DRL A5Houston GolkinTowne Heilmeier

557.549.516.545.

Shu YangE. BrownKa Yee LeeJ. Conrad

3:40-4:204:00-4:404:20-5:004:20-4:40

Irvine AmadoSkirkanich BergerHouston Class of ‘49Towne Heilmeier

WEDNESDAY KEYNOTE and INVITED SPEAKERS (in chronological order):


577.

626.621.641.

S. Mitragotri

O. VelevP. SchallN. Abbott

9:50-10:30

9:50-10:3010:10-10:5011:10-11:50

Houston Ben FranklinDRL A5Skirkanich BergerIrvine Amado

687. Andrea Liu 2:30-3:10 Skirkanich Berger

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Symposium Sponsorsand Exhibitors

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PLATINUM SPONSORS: GOLD SPONSORS:

Solvay USAwww.solvaychemicals.us

Thor Labs www.thorlabs.com

Soft Matterhttp://www.rsc.org/publishing/journals/

sm/about.asp

W.L. Gore & Associates, Inc.www.gore.com

Infi neumwww.infi neum.com

ExxonMobilhttp://corporate.exxonmobil.com/en/energy/research-and-developments

VisiTech International www.visitech.co.uk

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Biolin Scientifi c, Inc.www.biolinscientifi c.com

Optofl uidics, Inc.www.opfl uid.com

Kruss USA www.kruss.de

Symposium Exhibitors(non-sponsors)

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MRSEC Sponsors

MRSEC support from:

University of Chicago, Materials Research Center

New York University, Materials Research Science and Engineering

Massachusetts Institute of Technology, Center for Materials Science and Engineering

University of Massachusetts at Amherst, Materials Research Science and Engineering Center

Materials Research Laboratory at UCSB

The Triangle Materials Research Science and Engineering Center (Duke MRSEC)

Materials Research Science and Engineering Center at the University of Wisconsin – Madison (UW MRSEC)

Northwestern University, Materials Research Science and Engineering Center

Brandeis Materials Research Laboratory

Harvard Materials Research Science and Engineering Center

University of Pennsylvania, Laboratory for Research on the Structure of Matter

Additional support from:

University of PennsylvaniaSchool of Engineering and Applied ScienceSchool of Arts & Sciences

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Plenary & Award Lectures

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David A. Weitz is the Mallingkrodt Professor of Physics and Applied Physics at Harvard University, where he has appointment in both the Physics Department and the School of Engineering and Applied Sciences. He received his PhD in physics from Harvard, and then worked at Exxon Research and Engineering for nearly 18 years. From 1995-99 he was a professor of Physics at the University of Pennsylvania, and he then moved to Harvard, where he leads the experimental soft condensed matter physics research group. His research efforts include soft matter physics, biophysics and biotechnology. He is Director of Harvard’s NSF-funded Materials Research Science and Engineering Center, and co-Director of the BASF Advanced Research Initiative.

Daan Frenkel (1948) is 1968 Professor of Theoretical Chemistry and Head of the Department of Chemistry at Cambridge University. He received his PhD in experimental Physical Chemistry from the University of Amsterdam (NL). Subsequently, he worked as a postdoctoral research associate in Chemistry at the University of California at Los Angeles. After that, he worked at Shell Research (Amsterdam), the Universities of Utrecht and Amsterdam and the FOM Institute for Atomic and Molecular Physics in Amsterdam.

His research focuses on numerical simulations of many-body systems, with a special emphasis on problems relating to ordering and self-assembly. Daan Frenkel is a member of the Royal Dutch Academy of Arts and Sciences, a Foreign Member of the Royal Society (London), Foreign Honorary Member of the American Academy of Arts & Sciences, Associate Fellow of the World Academy of Sciences and Member of the Academia Europeae. He received numerous international prizes and awards. He holds an honorary Doctorate from the University of Edinburgh and Honorary/Concurrent Professorships from Beijing University of Chemical Technology and Nanjing University.

Daan Frenkel has published well over 400 papers. His book, written together with Berend Smit, on `Understanding Molecular Simulation’ has been translated into Chinese and Russian.

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Daeyeon Lee is Associate Professor of Chemical and Biomolecular Engineering at the University of Pennsylvania. Daeyeon received his B.S. in Chemical Engineering from Seoul National University in 2001 and received his Ph.D. in Chemical Engineering/Program in Polymer Science and Technology at MIT in 2007 co-supervised by Robert E. Cohen and Michael F. Rubner. After his Ph.D., Daeyeon was a postdoctoral fellow in the School of Engineering and Applied Sciences at Harvard University where he worked with David A. Weitz. Daeyeon joined the Department of Chemical and Biomolecular Engineering at the University of Pennsylvania in 2009. Daeyeon has won numerous awards and recognitions including the 2010 Victor K. LaMer Award from ACS Colloid and Surface Chemistry Division, the NSF CAREER Award (2011), the 2011 Korean-American Scientists and Engineers Association Young Investigator Award, the 2012 KIChE President Young Investigator Award, the 2013 3M Nontenured Faculty Award and the 2013 AIChE NSEF Young Investigator Award.

Daniel Beltran-Villegas was born in Bogotá, Colombia. He received his BS in Chemical Engineering (2004) and MSc in Mechanical Engineering (2005) from Universidad de los Andes, where he worked as an undergraduate instructor in the department of Chemical Engineering until 2006. He received his Ph.D. at the Johns Hopkins University (Baltimore, MD) working with Prof. Michael A. Bevan in 2012. Since then, he is a Postdoctoral Research Fellow at the University of Michigan working with Prof. Ronald G. Larson. His research interests revolve around techniques for measuring of colloidal particle conservative and dissipative forces and modeling of dynamic assembly processes. In 2012 he received the 2nd place in the Langmuir Student Award competition held during the 86th Colloids and Surface Science Symposium.

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Technical Program

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Plenary Lecture 1Monday, June 23, 2014, 8:10 AM - 9:20 AM Irvine Auditorium

Organizers: John Crocker, Kathleen Stebe, Arjun YodhPresider: Arjun Yodh

8:10 Opening & Welcome, Eduardo Glandt Dean, School of Engineering & Applied Science

8:20 1. Making particles one by one: Microfl u-idic fabrication of colloidal particles. D. A. Weitz; Department of Physics, Harvard University, Cambridge, MA.

Abstract:

This talk will describe new methods to produce colloidal scale particles using microfl uidic devices. The exquisite control provided by these devices enables production of highly monodisperse particles with complex structures, using emulsion drops as precursors. Both nanoparticles and larger scale particles can be formulated. Even though the particles are made one by one, it is nevertheless feasible to parallelize the production to make useful quantities of materials.

Active Colloids 1: Spherical Particles I

Monday, June 23, 2014, 9:50 AM - 12:10 PMDRL A6

Organizers: Zvonimir Dogic, Christina MarchettiPresider: J. Palacci

9:50 2. Keynote Lecture: Scalar fi eld theories for active phase separation.M. E. Cates; University of Edinburgh, Edinburgh, UNITED KINGDOM.

10:30 3. Aggregation and segregation of confi ned active particles. X. Yang, M. L. Manning, M. C. Marchetti; Physics Department, Syracuse University, Syracuse, NY.

10:50 4. Phase behavior of simple active colloids. G. S. Redner, A. Baskaran, M. F. Hagan; Physics, Brandeis University, Waltham, MA.

11:10 5. Surprises in the nonequilibrium self-orga-nization of active Janus particles. J. Zhang, J. Yan, S. Granick; University of Illinois at Urbana Champaign, Urbana, IL.

11:30 6. Collective motion in populations of colloidal robots. A. Bricard1,2, J. Caussin1, N. Des-reumaux1,3, O. Dauchot4,5, D. Bartolo1,6; 1Physics, ENS Lyon, Lyon, FRANCE, 2ESPCI, Paris, FRANCE, 3EPCI, Paris, FRANCE, 4EC2M, ESPCI, Paris, FRANCE, 5CNRS, Paris, FRANCE, 6Pmmh, ESPCI, Paris, FRANCE.

11:50 7. Casimir effect in active matter systems. C. J. Reichhardt, D. Ray, C. Reichhardt; Los Alamos National Laboratory, Los Alamos, NM.

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Biocolloids 1: ProteinsMonday, June 23, 2014, 9:50 AM - 12:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: D. Discher

9:50 8. Keynote Lecture: Microfl uidics for protein crystallization. S. Fraden; Brandeis University, Waltham, MA.

10:30 9. Reversible Colloidal Aggregation Mediated by Weak, Biospecifi c Adsorption of Proteins to Carbohydrates. G. Duncan, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins, Baltimore, MD.

10:50 10. Chirality-selected phase transitions in ionic polypeptide complexes. S. L. Perry1, L. Leon1, K. Q. Hoffmann2, M. J. Kade1, D. Priftis1, K. A. Black3, D. Wong1, R. A. Klein1, C. F. Pierce, III1, K. O. Margossian1, J. K. Whitmer1,4, J. Qin1, J. J. de Pablo1,4, M. Tirrell1,4; 1Institute for Molecular Engineering, University of Chicago, Chicago, IL, 2Department of Chemical Engineering, University of Wisconsin, Madison, Madison, WI, 3Department of Bioengineering, University of California at Berkeley, Berkeley, CA, 4Argonne National Laboratory, Argonne, IL.

11:10 11. Study of a colloid system with important implications in the biopharmaceutical industry: Formation of DNA-protein precipitates during downstream processing. A. C. Dumetz, K. Salansky, D. N. Paolella, G. J. Terfl oth, K. E. Göklen; BioPharmaceutical Development, GlaxoSmithKline, King of Prussia, PA.

11:30 12. Rheological response to cluster formation in concentrated protein solutions. P. D. Godfrin1, S. D. Hudson2, K. Hong3, P. Falus4, N. J. Wagner1, Y. Liu5,1; 1Chemical Engineering, University of Delaware, Newark, DE, 2Materials Measurement Laboratory, NIST, Gaithersburg, MD, 3Center for Nanophase Materials and Science, ORNL, Oak Ridge, TN, 4TOF-HR Group, ILL, Grenoble, FRANCE, 5Center for Neutron Research, NIST, Gaithersburg, MD.

11:50 13. Life in extreme environments: The role of intrinsically disordered proteins under conditions of abiotic stress. F. Yuen, A. Routh, M. Watson, A. Tunnacliffe; University of Cambridge, Cambridge, UNITED KINGDOM.

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Biointerfaces 1: Engineered InterfacesMonday, June 23, 2014, 9:50 AM - 12:10 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: R. Radhakrishnan

9:50 14. Lubricity of in-vitro fouled soft contact lenses. C. PENG, P. Lim, H. Chong, A. Tran, C. J. Radke; Chemical and Biomolecular Engineering, University of California at Berkeley, Berkeley, CA.

10:10 15. Exploring surface modifi cation techniques using ZetaSpin for the creation of next-generation diabetes treatment devices. D. G. Franey, B. Babcox, J. H. Adair; Materials Science and Engineering, Pennsylvania State University, University Park, PA.

10:30 16. Assembling biomimetic surfaces from modular amphiphilic protein polymers. F. Wan, S. Fischer, M. Bagheri, Z. al-Rekabi, S. Dick, J. L. Harden; Physics, University of Ottawa, Ottawa, ON, CANADA.

10:50 17. Graphene Oxide as a Platform for the Development of Novel Antibacterial Materials. A. F. Faria, F. Perrault, E. Shaulsky, L. A. Chavez, M. Elimelech; Chemical and Environmental Engineering, Yale University, New Haven, CT.

11:10 18. Biocatalytic Reduction of Carbonyl and Alcohol Based Odorants in Low/Zero VOC Architectural Coating. S. ARUMUGAM1, D. Frattarelli1, K. Manna2, J. Bohling3; 1Formulation Sciences Core R&D, THE DOW CHEMICAL COMPANY, Spring House, PA, 2Dow Microbial Control, THE DOW CHEMICAL COMPANY, Spring House, PA, 3Dow Coating Materials, THE DOW CHEMICAL COMPANY, Collegeville, PA.

11:30 19. Functional Patterned Surface Coatings by Dewetting of Thin Polymer Films. C. Neto; School of Chemistry, The University of Sydney, Sydney, AUSTRALIA.

Colloidal and Surface Forces 1: Entropic Systems

Monday, June 23, 2014, 9:50 AM - 12:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: R. Dagastine

9:50 20. Effects of multiple depletants on colloidal forces and stability: Evidence of synergistic effects. J. Y. Walz1, S. Ji2; 1Chemical and Materials Engineering, University of Kentucky, Lexington, KY, 2Chemical Engineering, Virginia Tech, Blacksburg, VA.

10:10 21. Shape-sensitive crystallization in colloidal superball fl uids. L. Rossi1,2, V. Soni3, S. Sacanna4, P. M. Chaikin5, D. Pine5, A. Philipse1, W. T. Irvine3; 1Physical and Colloid Chemistry, Utrecht University, Utrecht University, NETHERLANDS, 2Chemistry and Biochemistry, (current address) University of California Los Angeles, Los Angeles, CA, 3Physics, University of Chicago, Chicago, IL, 4Chemistry, Utrecht University, New York University, NY, 5Center for Soft Matter Research, New York University, New York, NY.

10:30 22. DENDRITIC NANOFLUIDS MEDIATING SURFACE FORCES. G. A. Pilkington, W. H. Briscoe; School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

10:50 23. Entropic forces in the self-assembly of colloids and biomolecules. A. Zaccone, E. M. Terentjev; Cavendish Laboratory, University of Cambridge, Cambridge, UNITED KINGDOM.

11:10 24. Investigating structural and depletion forces between soft interfaces in systems of spherical and rod-like micelles. C. Fewkes1, R. Dagastine1, R. Tabor2; 1Chemical and Biomolecular Engineering, University of Melbourne, Melbourne Victoria, AUSTRALIA, 2School of Chemistry, Monash University, Clayton Victoria, AUSTRALIA.

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11:30 25. Mechanism for long-range exclusion zone formation in colloidal suspensions. D. Florea1, S. Musa2, J. M. Huyghe2, H. M. Wyss1; 1ICMS & Mechanical Engineering, Eindhoven University of Technology, Eindhoven, NETHERLANDS, 2Mechanical Engineering, Eindhoven University of Technology, Eindhoven, NETHERLANDS.

11:50 26. Dynamic measurements of nanoparticle-lipid monolayer interactions. A. Xi, I. Khan, G. D. Bothun; Chemical Engineering, University of Rhode Island, Kingston, RI.

Directed Assembly 1: DNA-Mediated Assembly

Monday, June 23, 2014, 9:50 AM - 12:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: V. Manoharan

9:50 27. Crystallization of micrometer sized colloids with DNA hybridization.Y. Wang1, Y. Wang2, X. Zheng2, M. Weck2, D. Pine1; 1Department of Physics, New York University, New York, NY, 2Department of Chemistry, New York University, New York, NY.

10:10 28. Programming colloidal phase transitions with DNA strand displacement. W. B. Rogers1, V. N. Manoharan2; 1School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, 2Physics & School of Engineering and Applied Sciences, Harvard University, Cambridge, MA.

10:30 29. Keynote Lecture: Programmable Nanoparticle Assembly: from Exploration to Design. O. Gang; Brookhaven National Laboratory, Upton, NY.

11:10 30. DNA directed sequential self-assembly of emulsions. Y. Zhang1, L. Pontani1, M. Haase1, L. Feng1, R. Sha2, N. Seeman2, J. Brujic1, P. Chaikin1; 1Physics Department, New York University, New York, NY, 2Chemistry Department, New York University, New York, NY.

11:30 31. High throughput, in situ measurements of LNA hybridization activity on microspheres. V. T. Milam, N. Eze; School of Materials Science & Engineering, Georgia Institute of Technology, Atlanta, GA.

11:50 32. Computational analysis of spontaneous diffusionless transformations in binary DNA-linked colloidal superlattices. I. C. Jenkins, J. T. McGinley, J. C. Crocker, T. Sinno; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

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Emulsions, Bubbles and Foams 1: Mechanical Responses of Foams,

Elastomers and InterfacesMonday, June 23, 2014, 9:50 AM - 12:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: D. Durian

9:50 33. Interfacial protein dynamics at air-water interfaces using a microfl uidic tensiometer. J. B. Rovner1, C. J. Roberts1, E. M. Furst1, S. D. Hudson2; 1Department of Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Materials Science & Engineering Division, Polymers & Complex Fluids Group, National Institute of Standards and Technology, Gaithersburg, MD.

10:10 34. Elastic and plastic deformations of a bubble raft driven by oscillatory compression. N. Hagans, C. O’Dea, K. Feitosa; Physics and Astronomy, James Madison University, Harrisonburg, VA.

10:30 35. Keynote Lecture: Failure Modes of Two-Dimensional Foam. M. Dennin, C. Kuo; Physics and Astronomy, UC Irvine, Irvine, CA.

11:10 36. How making small holes in soft solids can make them stiffer. R. W. Style1, R. Boltyanskiy1, K. E. Jensen1, R. S. Sarfati1, J. S. Wettlaufer2, E. R. Dufresne1; 1Mechanical Engineering and Materials Science, Yale University, New Haven, CT, 2Geology and Geophysics, Yale University, New Haven, CT.

11:30 37. Dynamics of the deformation of immiscible viscoelastic molten wax droplets at a liquid interface. S. N. Beesabathuni1, G. M. Homsy1, S. Lindberg2, J. C. Wesner2, M. Caggioni2, A. Shen1; 1Mechanical Engineering, University of Washington, Seattle, WA, 2Process Technologies, Procter & Gamble, West Chester, OH.

11:50 38. Dilatational properties of insoluble monolayers examined by oscillating microbubble. A. Kotula1, S. Anna2; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engineering and Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

Environmental Science 1Monday, June 23, 2014, 9:50 AM - 12:10 PMHouston Golkin

Organizers: Daniel Strongin, Howard FairbrotherPresider: H. Fairbrother

9:50 39. Aggregate morphology, stability, and transport of molybdenum disulfi de nanoparticles in subsurface environments. J. Lanphere1, L. Guiney2, N. Mansukhani2, M. Hersam2, S. Walker1; 1Chemical and Environmental Engineering, University of California Riverside, Riverside, CA, 2Material Science and Engineering, Northwestern University, Evanston, IL.

10:10 40. Colloidal stability of elongated shaped gold nanoparticles in aquatic environment. S. Abtahi, P. Vikesland; Civil and environmental engineering, Virginia Tech, BLACKSBURG, VA.

10:30 41. Colloidal rod diffusion in model porous media. J. L. Bitter1, Y. Yang2, G. A. Duncan2, D. H. Fairbrother1, M. A. Bevan2; 1Chemistry, Johns Hopkins University, Baltimore, MD, 2Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

10:50 42. A Complete Set of Numerical Tools for Adsorption Equilibria and Diffusion Kinetics. A. Ladshaw, S. Yiacoumi, C. Tsouris; Geor-gia Institute of Technology, Atlanta, GA.

11:10 43. Lability of organic acids on kaolinite and gamma alumina surfaces. M. J. Kelley1,2, D. Bailey2; 1Applied Science, Coll. of William & Mary, Newport News, VA, 2Thomas Jefferson National Accelerator Laboratory, Newport News, VA.

11:30 44. Neutron Imaging of lithium ion transport in mesoporous carbon materials. K. Shar-ma1, S. Yiacoumi1, J. Gabitto2, R. Mayes3, J. Kiggans3, D. DePaoli3, S. Dai3, C. Tsouris3; 1Georgia Institute of Technology, Atlanta, GA, 2Prairie View A&M University, Prairie View, TX, 3Oak Ridge National Laboratory, Oak Ridge, TN.

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11:50 45. UV Irradiation Induced Transformation of Nano-TiO2: Aggregation and Photoreactivity. L. Guo, J. Sun, H. Zhang; Research Center for Eco-environmental Sciences, Chinese Academy of Sciences, Beijing, CHINA.

General Papers 1: WettingMonday, June 23, 2014, 9:50 AM - 12:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: J. Frechette

9:50 46. Line tension and line entropy in a liquid crystal Langmuir monolayer. P. Mandal1,2, J. S. Yarzebinski1, J. A. Mann, Jr3, E. K. Mann1; 1Physics, Kent State University, Kent, OH, 2Mechanical Engineering, KAUST, Thuwal, SAUDI ARABIA, 3Chemical Engineering, Case Western Reserve University, Cleveland, OH.

10:10 47. Dewetting fi lm dynamics using a nanofl uid inside a capillary. H. Zhang, A. D. Nikolov, D. T. Wasan; Chemical Engineering, Illinois Institute of Technology, Chicago, IL.

10:30 48. Estimation of transport properties of model cement microstructures. A. McCreanor, A. F. Routh; University of Cambridge, Cambridge, UNITED KINGDOM.

10:50 49. Self-dispersing aerosol drug carriers for pulmonary drug delivery at low deposition fl uxes. R. Sharma1, T. E. Corcoran2, S. Garoff3, T. Przybycien1,4, R. D. Tilton1,4; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Department of Medicine, University of Pittsburgh, Pittsburgh, PA, 3Physics Department, Carnegie Mellon University, Pittsburgh, PA, 4Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

11:10 50. Invited Lecture: Multi-ion diffusio-phoresis in dead-End channels. D. Velegol, T. Chiang, A. Kar; Chemical Engineering, Penn State University, University Park, PA.

11:30 51. Keynote Lecture: Confocal microscopy to study wetting and dynamics at interfaces. K. Koynov, D. Vollmer, P. Papadopoulos, H. Butt; Physics at Interfaces, Max Planck Institute for Polymer Research, Mainz, GERMANY.

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Glasses/Jamming 1: RheologyMonday, June 23, 2014, 9:50 AM - 12:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: E. Brown

9:50 52. Identifying structural defects in amorphous solids. S. S. Schoenholz1, E. Cubuk2, J. Rieser1, B. Malone2, D. Durian1, J. Rottler3, E. Kaxiras4, A. J. Liu1; 1Physics, University of Pennsylvania, Philadelphia, PA, 2Applied Physics, Harvard University, Boston, MA, 3Physics, University of British Columbia, Vancouver, BC, CANADA, 4Physics, Harvard University, Boston, MA.

10:10 53. Critical scaling of stress and spatial correlations with strain rate in sheared amorphous solids. J. T. Clemmer1, K. M. Salerno2, M. O. Robbins1; 1Physics and Astronomy, Johns Hopkins University, Baltimore, MD, 2Sandia National Laboratories, Albuquerque, NM.

10:30 54. Invited Lecture: The yielding transition in athermal amorphous solids of soft particles. M. Wyart; NYU, New York, NY.

11:10 55. Role of dissipation mechanism on sheared soft-particle packings: rheology, diffusion, and plastic correlations. A. Roy, K. Karimi, C. E. Maloney; Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA.

11:30 56. Rheology of soft colloids across the onset of rigidity: Scaling behavior, thermal and non-thermal Responses. Y. Xu1,2, A. Basu1, T. Still1,2, P. E. Arratia3, Z. Zhang4, K. N. Nordstrom1, J. M. Rieser1, J. P. Gollub5, D. J. Durian1, A. G. Yodh1; 1Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2Complex Assemblies of Soft Matter, CNRS-Rhodia-UPenn UMI 3254, Bristol, PA, 3Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA, 4Center for Soft Condensed Matter Physics and Interdisciplinary Research, Soochow University, Soochow, CHINA, 5Department of Physics, Haverford College, Haverford, PA.

Microfl uidics: Drops BubblesMonday, June 23, 2014, 9:50 AM - 12:10 PMDRL A5

Organizers: Paulo Arratia, Kevin TurnerPresider: B. Bharti

9:50 57. Generation of monodisperse particle-stabilized bubbles with similar nonspherical shape controlled by particle loading at the interface. A. Kotula1, S. Anna2; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engineering and Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

10:10 58. Creating Emulsions with Solid and Active Cores by Flow-Focusing. M. M. Norton1, T. Brugarolas2, J. Chou2, D. Lee2, H. H. Bau1; 1Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA, 2Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

10:30 59. An “Off-the-shelf” Capillary Microfl uidic Device that Enables Tuning of the Drop Breakup Regime at Constant Flow Rates. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

10:50 60. Tunable wetting and adhesion of doped polypyrrole surface for ultra-low-voltage manipulation of microdroplets. W. Xu, C. Choi, E. Yang; Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ.

11:10 61. Geometrically-mediated snap-off of water-in-oil emulsion droplets in microfl uidic fl ow focusing devices. J. Yao, J. Oakey; Chemical & Petroleum Engineering, University of Wyoming, Laramie, WY.

11:30 62. Phase separation and de-wetting of aqueous two phase systems in a microfl uidic droplet array. C. W. Nelson1, S. L. Anna2; 1Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engieering & Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

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11:50 63. Size measurements of sub-micron droplets generated via tipstreaming and the effect of altering operating conditions. T. M. Moyle, L. M. Walker, S. L. Anna; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

Molecular Self-Assembly 1Monday, June 23, 2014, 9:50 AM - 12:10 PMCohen Terrace

Organizers: Dan Hammer, Darrin PochanPresider: D. Pochan

9:50 64. SURFACES MEDIATED SELF-ASSEM-BLY AND RAPID GROWTH OF AMYLOID FIBRILS. Y. LIN, E. J. PETERSSON, Z. FAKHRAAI; Chemistry, University of Pennsyl-vania, Philadelphia, PA.

10:10 65. Self-assembly of model microtubules. S. Cheng1, M. J. Stevens2; 1Physics, Virginia Tech, Blacksburg, VA, 2Computational Ma-terials and Data Sciences, Sandia National Laboratories, Albuquerque, NM.

10:30 66. Tension induced polymerization and growth in neuronal cells. P. Purohit; Mechan-ical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:50 67. Surfactant micelle-mediated polydispersity in the synthesis of amphipathic, self-assem-bling polypeptides. M. B. Kubilius, R. Tu; Chemical Engineering, City College of New York, New York, NY.

11:10 68. Keynote Lecture: Self-assembly of diblock polypeptides: Weak micellization. W. Hassouneh1, E. Zhulina2,3, A. Chilkoti1, M. Rubinstein4; 1Department of Biomedical Engineering, Duke University, Durham, NC, 2Institute of Macromolecular Compounds, Russian Academy of Sciences, St. Peters-burg, RUSSIAN FEDERATION, 3National Research University of Information Technol-ogy, Mechanics and Optics, St. Petersburg, RUSSIAN FEDERATION, 4Department of Chemistry, University of North Carolina, Chap-el Hill, NC.

11:50 69. Modular Polyelectrolyte Based Assemblies as Delivery Vehicles. L. Leon1,2, S. Perry1, C. Kuo3, D. Priftis1, D. Wong1, M. Kade1, R. Klein1, K. Margossian1, C. Pierce1, Y. Fang3, M. Tirrell1,2; 1Institute for Molecular Engineer-ing, University of Chicago, Chicago, IL, 2Ar-gonne National Lab, Lemont, IL, 3Department of Medicine, University of Chicago, Chicago, IL.

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Particles in Interfaces, Fields and Liquid Crystals 1

Monday, June 23, 2014, 9:50 AM - 12:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: C. Santangelo

9:50 70. Electrostatic interaction between colloids trapped at an electrolyte interface. A. Majee1,2, M. Bier1,2, S. Dietrich1,2; 1Max-Planck Institute for Intelligent Systems, Stuttgart, GERMANY, 2IV Institut für Theoretische Physik, Universität Stuttgart, Pfaffenwaldring 57, Stuttgart, GER-MANY.

10:10 71. Tunable Pickering emulsions stabilized solely by oppositely charged particles. T. Nal-lamilli, E. Mani, M. G. Basavaraj; Department of Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

10:30 72. Nanoparticle Adsorption at Fluid Interfaces and the Role of Interfacial Electric Potential. W. Hong1, S. T. Russell2, A. D. Dinsmore1; 1Physics, University of Massachusetts Amherst, Amherst, MA, 2Chemical Engineer-ing, University of Massachusetts Amherst, Amherst, MA.

10:50 73. Stabilization of emulsion by oppositely charged colloids: A Monte Carlo simulation study. S. Christ Doss Pushpam, M. Basavaraj, E. Mani; Chemical Engineering, Indian Insti-tute of Technology Madras, Chennai, INDIA.

11:10 74. Charged nanoparticles at liquid interfaces: Charge-reversal and voltage-tunable arrays. M. Schlossman; Physics, University of Illinois at Chicago, Chicago, IL.

11:30 75. Organic-Stabilizer-Free Synthesis of Shape-Controlled Platinum Nanocrystals by Interfacial Galvanic Exchange Reactions. D. Chen, Y. Liu, Y. J. Tong*; Department of Chemistry, georgetown univeristy, Washing-ton, DC.

11:50 76. Adsorption of particles to fl uid interfaces: role of particle shape and surface charge. V. Dugyala, M. G. Basavaraj; Department of Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

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Monday, June 23, 2014, 9:50 AM - 12:10 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: A. Striolo

9:50 77. Keynote Lecture: Guided hierarchical co-assembly of soft, patchy nanoparticles. A. H. Mueller; Organic Chemistry, Johannes Gutenberg University Mainz, Mainz, GERMA-NY.

10:30 78. Effect of surface chemistry and metallic layer thickness on the hemispheric binding and clustering of metallodielectric Janus spheres. O. Shemi, M. J. Solomon; Chemical Engineering, University of Michigan, Ann Arbor, MI.

10:50 79. Molecular dynamics of a model dimerizing liquid. C. E. Bertrand1, Y. Liu2; 1NIST Center for Neutron Science, National Institute of Standards and Technology, Gaithersburg, MD, 2Dept. of Chemical and Biomolecular Engineering, University of Delaware, Newark, DE.

11:10 80. Design and self-assembly of colloidal molecules: anisotropic functionalization is not necessary. Z. Nie, J. He, Y. Liu; Chemistry and Biochemistry, University of Maryland, College Park, MD.

11:50 81. Modeling of Anisotropic Colloid Binding Kinetics. D. J. Beltran-Villegas1, L. Colón-Meléndez2, M. J. Solomon1, R. G. Larson1; 1Chemical Engineering, University of Michigan, Ann Arbor, MI, 2Physics, University of Michigan, Ann Arbor, MI.

Rheology and Dynamics 1Monday, June 23, 2014, 9:50 AM - 12:10 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: Y. M. Joshi

9:50 82. Cross fl ow fi ltration of bentonite suspensions in the presence of rod-shaped cellulose nano crystal particles. H. Balavi, Y. Boluk; Civil & Environmental Engineering, University of Alberta, Edmonton, AB, CANADA.

10:10 83. New modular fl ow cell for characteriza-tion of structure in complex fl uids undergoing non-shear fl ows using small angle neutron scattering. K. Weigandt; NIST Center for Neu-tron Research, NIST, Gaithersburg, MD.

10:30 84. Deformation and transport of an elastic fi bre in a viscous cellular fl ow. N. Quennouz1, A. Lindner2, O. du Roure2, M. Shelley3; 1Yale University, New Haven, CT, 2PMMH-ESPCI, Paris, FRANCE, 3The Courant Institute, New York, NY.

10:50 85. Spatiotemporal measurements of branched micellar solutions under large am-plitude oscillatory shear (LAOS) using small angle neutron scattering (SANS). M. Cal-abrese, S. Rogers, N. J. Wagner; Chemical and Biomolecular Engineering, University of Delaware, Newark, DE.

11:10 86. Diffusive dynamics of colloids in fl ow. M. H. Duits, S. Ghosh, F. Mugele; Science and Technology, University of Twente, Enschede, NETHERLANDS.

11:30 87. Polymer dynamics in PMMA/carbon composites. R. Ashkar1, M. Abdulbaki2, M. Tyagi1, A. Faraone1, P. Butler1, R. Krishnamoorti2; 1NIST Center for Neutron Research, Gaithersburg, MD, 2Department of Chemical Engineering, University of Houston, Houston, TX.

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11:50 88. Brownian Dynamics of Patchy Spheres: the Effect of Viscosity and Surface Coating. J. Cui1, I. Kretzschmar2, P. Shapturenka2; 1Pen-Tung Sah Institute, Xiamen University, Xiamen, CHINA, 2Chemical Engineering, City College, the City University of New York, New York, NY.

Wetting and Adhesion 1: Superhydrophobic and Superoleophobic

SurfacesMonday, June 23, 2014, 9:50 AM - 12:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: G. H. McKinley

9:50 89. Keynote Lecture: Designing Superhydrophobic and Superphotophilic Transparent Nanotextured Surfaces. H. Choi1, K. Park1, R. E. Cohen2, G. Barbastathis1, G. H. McKinley1; 1Mechanical Engineering, MIT, Cambridge, MA, 2Chemical Engineering, MIT, Cambridge, MA.

10:30 90. Transparent and superamphiphobic surfaces from spray coating of stringed silica nanoparticle/sol solutions. D. Ge, L. Yang, Y. Zhang, Y. Rahmawan, S. Yang; MSE, University of Pennsylvania, Philadelphia, PA.

10:50 91. Omniphobic slippery coatings based on lubricant infused porous polyelectrolyte multilayers. X. Huang1, J. D. Chrisman1, N. S. Zacharia2; 1Mechanical Engineering, Texas A&M University, College Station, TX, 2Department of Polymer Engineering, The University of Akron, Akron, OH.

11:10 92. Drop size effect on contact angle results of superhydrophobic surfaces. E. Ozen Cansoy; Chemistry, Piri Reis University, Istanbul, TURKEY.

11:30 93. Superhydrophobic Surfaces: Role of Water Density Fluctuations in Drying Transitions. S. Suruchi; University of Pennsylvania, Philadelphia, PA.

11:50 94. Silane Coupling Agents that Help in Making Superhydrophobic and Superhydrophillic Surfaces. M. Singh, J. G. Matisons, J. Zazyczny, B. Arkles; R&D, Gelest Inc, MORRISVILLE, PA.

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Active Colloids 2: Rods and Liquid Crystals

Monday, June 23, 2014, 1:30 PM - 3:10 PMDRL A6

Organizers: Zvonimir Dogic, Christina MarchettiPresider: S. Fraden

1:30 95. Defect dynamics in active 2D nematic liquid crystals. S. J. DeCamp, G. S. Redner, M. F. Hagan, Z. Dogic; Physics, Brandeis University, Waltham, MA.

1:50 96. Dynamic self-organization of self-propelled colloidal rods. H. Vutukuri1, A. van Blaaderen2, W. T. Huck1; 1Institute for Molecules and Materials, Radboud University, Nijmegen, NETHERLANDS, 2Debye Institute for NanoMaterials, Utrecht University, Utrecht, NETHERLANDS.

2:10 97. Active nematic theory of microtubule/motor-protein assemblies. T. Gao; Courant Institute of Mathematical Sciences, New York University, New York, NY.

2:30 98. Structure and Rheology of Active Gel Networks. D. T. Chen; Physics, Brandeis University, Waltham, MA.

2:50 99. Reconfi gurable swarming of nematic colloids commanded by photoactivated surface patterns. F. Sagues1, S. Hernandez1, P. Tierno2, J. Ignes-Mullol1; 1Physical Chemistry, Universitat de Barcelona, Barcelona, SPAIN, 2Structure and Constituents of Matter, Universitat de Barcelona, Barcelona, SPAIN.

Biocolloids 2: Interactions IMonday, June 23, 2014, 1:30 PM - 3:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: O. Gang

1:30 100. Ion-specifi c effects on prion nucleation and strain formation. J. Rubin1, H. Khosravi1, K. L. Bruce2, M. E. Lydon3, S. H. Behrens1, Y. O. Chernoff2, A. S. Bommarius1; 1School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA, 2School of Biology, Georgia Institute of Technology, Atlanta, GA, 3School of Chemistry & Biochemistry, Georgia Institute of Technology, Atlanta, GA.

1:50 101. Characterization and control of surfactant-mediated Norovirus interactions. B. Mertens1, M. Moore2, L. Jaykus2, O. D. Velev1; 1Chemical and Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Food, Bioprocessing, & Nutrition Sciences, North Carolina State University, Raleigh, NC.

2:10 102. Ion permeation inside microgel particles induced by specifi c interactions: from charge inversion to overcharging. A. Moncho-Jordá, I. Adroher-Benítez; Applied Physics, Univesity of Granada, Granada, SPAIN.

2:30 103. Multicompartment capsules that mimic the architecture of biological cells. H. Oh, A. Goyal, S. R. Raghavan; Chemical and Biomolecular Engineering, University of maryland, College Park, MD.

2:50 104. Sorting bacteria with surface free energy. X. Zhang1,2, Q. Zhang3, T. Yan3, Y. Y. Zuo1; 1Department of Mechanical Engineering, University of Hawaii at Manoa, Honolulu, HI, 2School of Material science and Engineering, University of Science and Technology Beijing, Beijing, CHINA, 3Department of Civil and Environmental Engineering, University of Hawaii at Manoa, Honolulu, HI.

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Biointerfaces 2: Amphiphile BiophysicsMonday, June 23, 2014, 1:30 PM - 3:10 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: R. Radhakrishna

1:30 105. Anomalous lateral diffusion in a viscous membrane surrounded by viscoelastic media. S. Komura; Department of Chemistry, Tokyo Metropolitan University, Tokyo, JAPAN.

1:50 106. Nucleation barrier to registration of lipid bilayer domains. J. J. Williamson, P. D. Olmsted; Physics, Georgetown University, Washington DC, DC.

2:10 107. Structure and Dynamics of Stratum Corneum Lipid Bilayers.P. Olmsted1, C. Das2, M. Noro3; 1Department of Physics, Georgetown University, Washington, DC, 2University of Leeds, Leeds, UNITED KINGDOM, 3Unilever R & D, Port Sunlight, UNITED KINGDOM.

2:30 108. Comparison of oleic acid and glyceryl trioleate interacting with stratum corneum lipids. G. Mao1, C. R. Flach2, M. C. Mack Correa1, R. Mendelsohn2, R. M. Walters1; 1Johnson & Johnson, Skillman, NJ, 2Rutgers University, Newark, NJ.

Colloidal and Surface Forces 2: kT Interactions

Monday, June 23, 2014, 1:30 PM - 3:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: J. Walz

1:30 109. Interfacial kinetics of colloids at solid interfaces. P. F. Salipante, S. D. Hudson; National Institute of Standards and Technology, Gaithersburg, MD.

1:50 110. Interactions of a colloidal sphere near a fl at boundary. B. Krishnatreya, C. Wang, H. W. Moyses, D. G. Grier; Center for Soft Matter Research and Physics, New York University, New York, NY.

2:10 111. Measurements of Hydrodynamic and Surface Forces in Wetting Films Using the Force Apparatus for Deformable Surfaces (FADS).L. Pan1, B. Dong2, A. Wang2, R. Yoon1;1Department of Mining and Minerals Engineering, Virginia Tech, Blacksburg, VA, 2Bradley Department of Electrical and Computer Engineering, Virginia Tech, Blacksburg, VA.

2:30 112. Keynote Lecture: Colloidal energy and diffusivity landscapes in synthetic and biological materials.M. Bevan; Johns Hopkins, Baltimore, MD.

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Directed Assembly 2: Targeted AssemblyMonday, June 23, 2014, 1:30 PM - 3:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: C. Kagan

1:30 113. High-yield production of stable colloidal clusters using crystalline templates. J. T. McGinley, III, I. Jenkins, T. Sinno, J. C. Crocker; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

1:50 114. Gold Nanostar-Nanospheres Superstructures as SERS Substrates. A. De Silva Indrasekara1, L. Fabris1,2; 1Materials Science and Engineering, Rutgers University, Piscataway, NJ, 2Institute for Advanced Materials Devices and Nanotechnology, Rutgers University, Piscataway, NJ.

2:10 115. Isotropic Gold Nanoparticle Clusters Exhibiting Strong Magnetic Dipole and Quadrupole Resonance. Z. Qian1, S. P. Hasting2, C. Li1, N. Engheta3, Z. Fakhraai1, S. Park1; 1Chemistry, University of Pennsylvania, philadelphia, PA, 2Physics, University of Pennsylvania, Philadelphia, PA, 3Department of Electrical and Systems Engineering, University of Pennsylvania, Philadelphia, PA.

2:30 116. Directed self-assembly of tetrahedral plasmonic clusters for metafl uids. N. B. Schade1, D. A. Kunz2, W. B. Rogers2, G. Yi3, V. N. Manoharan4; 1Physics, Harvard University, Cambridge, MA, 2SEAS, Harvard University, Cambridge, MA, 3Department of Polymer Science and Engineering and School of Chemical Engineering, Sungkyunkwan University, Suwon, KOREA, REPUBLIC OF, 4SEAS and Physics, Harvard University, Cambridge, MA.

2:50 117. A systematic framework for assessing the feasibility of target DNA-linked particle assemblies. I. C. Jenkins, J. T. McGinley, J. C. Crocker, T. Sinno; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Electrokinetics: GeneralMonday, June 23, 2014, 1:30 PM - 3:10 PMDRL A5

Organizers: Darrell Velegol, Aditya KhairPresider: N. Wu

1:30 118. Charge carriers in doped nonpolar liquids. B. A. Yezer, A. S. Khair, P. J. Sides, D. C. Prieve; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

1:50 119. Surfactant-mediated electric charging mechanisms in nonpolar media. J. LEE, S. H. Behrens; Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA.

2:10 120. Transient nonlinear electrohydrodynamic drop deformation. J. A. Lanauze, L. M. Walker, A. S. Khair; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:30 121. Electrical Impedance Characterization of Micro-nanochannel Devices. J. Schiffbauer, U. Liel, N. Liebowitz, S. Park, G. Yossifon; Mechanical Engineering, Technion, IIT, Haifa, ISRAEL.

2:50 122. Electrokinetic fl ows in mineral replacement reactions. A. Kar, B. Mays, C. Gorski, D. Velegol; Chemical Engineering, Penn State University, University Park, PA.

68 69

Emulsions, Bubbles and Foams 2: Dynamical Evolution of Foams and

EmulsionsMonday, June 23, 2014, 1:30 PM - 3:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: N. D. Denkov

1:30 123. Physico-chemical control of bubble Ostwald ripening in foams. S. Tcholakova, N. Denkov; Department of Chemical Engineering, Sofi a University, Sofi a, BULGARIA.

1:50 124. Foams stabilized by mixtures of nanoparticles and oppositely charged surfactants: Relationship between bubble shrinkage and foam coarsening. A. Maestro1, E. Rio2, W. Drenckhan2, D. Langevin2, A. Salonen2; 1BSS, Department of Physics, University of Cambridge, Cambridge, UNITED KINGDOM, 2Laboratoire de Physique des Solides, Universit Paris Sud 11, Orsay, FRANCE.

2:10 125. Coarsening dynamics for individual bubbles. A. T. Chieco, D. J. Durian; Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

2:30 126. Kinetics of drop breakage and drop-drop coalescence during emulsifi cation in turbulent fl ow. S. S. Tcholakova, N. Denkov; Department of Chemical Engineering, Sofi a University, Sofi a, BULGARIA.

Environmental Science 2Monday, June 23, 2014, 1:30 PM - 3:10 PMHouston Golkin


1:30 127. Reactivity of CO2-H2O-sulfi de mixtures with iron bearing minerals. K. Lammers Wilking1, J. Delassandro1, M. A. Schoonen2, D. R. Strongin1; 1Chemistry, Temple University, Philadelphia, PA, 2Chemistry, Stony Brook University, Stony Brook, NY.

1:50 128. Infl uence of short-lived radionuclides on charging and aggregation of 137Cs-containing particles in the atmosphere.Y. Kim1, S. Yiacoumi1, C. Tsouris2; 1School of Civil and Environmental Engineering, Georgia institute of technology, Atlanta, GA, 2Oak Ridge National Laboratory, Oak Ridge, TN.

2:10 129. Understanding the role of surface area in nano metal oxide sorption of selenium.A. W. Lounsbury1, J. Yamani1, P. Larese-Casanova2, J. B. Zimmerman1; 1Chemical and Environmental Engineering, Yale University, New Haven, CT, 2Civil and Environmental Engineering, Northeastern University, Boston, MA.

2:30 130. Zr-based nanoparticle embedded PSF blend hollow fi ber membrane for treatment of arsenate and fl uoride contaminated water: material development, adsorption and fi ltration studies, and characterization. J. He, J. P. Chen; National University of Singapore, Singapore, SINGAPORE.

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General Papers 2: AssemblyMonday, June 23, 2014, 1:30 PM - 3:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: M. Bevan

1:30 131. Keynote Lecture: Surprising self-assembly of hard spheres and long-ranged repulsive rods in confi nement. A. van Blaaderen; Physics, Debye Institute, Utrecht University, Utrecht, NETHERLANDS.

2:10 132. Fast thermoresponsive photonic crystals through soft colloidal particles and depletion. J. Park1, W. B. Rogers2, S. Magkiriadou1, T. Kodger2, S. Kim3, Y. Kim4, V. N. Manoharan1,2; 1Physics, Harvard University, Cambridge, MA, 2School of Engineering and Applied Science, Harvard University, Cambridge, MA, 3Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology, Daejeon, KOREA, REPUBLIC OF, 4Korea Electronics Technology Institute, Seongnam-si, Gyeonggi-do, KOREA, REPUBLIC OF.

2:30 133. Exploring complementarity of colloidal and plasma crystals at the individual particle level. M. Chaudhuri, D. A. Weitz; School of Engineering and Applied Science, Harvard University, Cambridge, MA.

2:50 134. Kinetic roles of metastability and polydispersity in crystal growth. J. J. Williamson1, M. Evans2; 1Physics, Georgetown University, Washington DC, DC, 2Maths, Leeds University, Leeds, UK, UNITED KINGDOM.

Glasses/Jamming 2: Vibrations/Confi nement

Monday, June 23, 2014, 1:30 PM - 3:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: C. E. Maloney

1:30 135. Invited Lecture: A novel method for characterizing structural defects in amorphous solids. S. Wijtmans, M. Manning; Physics, Syracuse University, Syracuse, NY.

2:10 136. Vibrational modes at the surface of jammed packings. D. Sussman1, A. Liu1, S. Nagel2; 1University of Pennsylvania, Philadelphia, PA, 2University of Chicago, Chicago, IL.

2:30 137. Dynamics and mechanical properties of model glass-formers under cylindrical confi nement. A. Shavit, R. Riggleman; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

2:50 138. Spinodal Dewetting of Thin Films of Glasses Well below Tg. Z. Fakhraai, Y. Zhang, T. Liu, Y. Lin, C. Li, W. Zhang; Chemistry, University of Pennsylvania, Philadelphia, PA.

72 73

Molecular Self-Assembly 2Monday, June 23, 2014, 1:30 PM - 3:10 PMCohen Terrace


1:30 139. Self-Assembly of J-Aggregate Nanotubes for Sensor Applications. J. Fang; Department of Materials Science and Engineering, University of Central Florida, Orlando, FL.

1:50 140. Self-assembly and doping of conjugated polymer networks for applications in transparent static dissipation coatings. G. M. Newbloom, V. Hrechka, L. D. Pozzo; Chemical Engineering, University of Washington, Seattle, WA.

2:10 141. Highly conductive pedot pss fi lms and gel for organic electronic applications. C. Badre, A. Alsayed, R. Murphy, L. Hough; Solvay Inc, Bristol, PA.

2:30 142. Potential induced on/off single molecule switch. S. Afsari, E. Borguet; Chemistry, Temple University, Philadelphia, PA.


Monday, June 23, 2014, 1:30 PM - 3:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: A. Fernandez-Nieves

1:30 143. Effect of interface shape on advancing and receding contact angles around spherical beads. N. SENBIL, W. HE, B. DAVIDOVITCH, A. D. DINSMORE; Physics, Umass-Amherst, Amherst, MA.

1:50 144. Particle with pinned contact lines on curved interfaces: Migration and Alignment. N. Sharifi -Mood, L. Yao, I. B. Liu, A. Ravichandran, K. J. Stebe; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

2:10 145. Keynote Lecture: Classical Wigner Crystals on fl at and curved surfaces, topological defects, `pleats‘ particle fractionalization and grainboundary dynamics. P. Chaikin, W. Irvine, M. Bowick; Physics Department, New York University, New York, NY.

74 75

Patchy and Janus Particles 2: Patchy and Janus Particles as Functional

MaterialsMonday, June 23, 2014, 1:30 PM - 3:10 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: V. Garbin

1:30 146. Irreversible adsorption of patchy colloids on substrates. N. Araujo1, C. Dias2, M. Telo da Gama2; 1ETH Zurich, Zurich, SWITZERLAND, 2Universidade de Lisboa, Lisbon, PORTUGAL.

1:50 147. Liquid crystal Janus droplets created by a phase separation of liquid crystals and polymers. J. Jeong1, A. Gross1, P. J. Collings2,1, T. C. Lubensky1, A. G. Yodh1;1Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2Physics and Astronomy, Swarthmore College, Swarthmore, PA.

2:10 148. Electrokinetic Effects in Catalytic Pt-insulator Janus Swimming Devices. D. A. Gregory1, R. Golestanian2, S. J. Ebbens1; 1Chemical and Biologial Engineering, University of Sheffi eld, Sheffi eld, UNITED KINGDOM, 2Rudolf Peierls Centre for Theoretical Physics, University of Oxford, Oxford, UNITED KINGDOM.

2:30 149. A Janus Particle Magnetometer. B. Ren1, I. Kretzschmar2,1; 1Department of Chemistry, CUNY Graduate Center, New York, NY, 2Department of Chemical Engineering, The City College of New York, New York, NY.

2:50 150. Self-Assembly of Adaptive Nanoparticle Amphiphiles with Tunable Valence. H. Lee, S. Shin, A. M. Drews, A. M. Chirsan, S. A. Lewis, K. J. Bishop; Chemical Engineering, Pennsylvania State University, State College, PA.

Rheology and Dynamics 2Monday, June 23, 2014, 1:30 PM - 3:10 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: A. Zaccone

1:30 151. Keynote Lecture: Building and breaking large-scale structure in colloidal gels. M. E. Helgeson1, J. Kim1, Y. Gao1, D. Merger2; 1Chemical Engineering, UC Santa Barbara, Santa Barbara, CA, 2Karlsruhe Institute of Technology, Karlsruhe, GERMANY.

2:10 152. Enhanced gel formation in binary mixtures of nanocolloids with short-range attraction. H. Guo1, M. Bertrand2, S. Ramakrishnan3, R. L. Leheny4, J. L. Harden2; 1University of California San Diego, La Jolla, CA, 2University of Ottawa, Ottawa, ON, CANADA, 3Florida State University, Tallahassee, FL, 4Johns Hopkins University, Baltimore, MD.

2:30 153. Direct measurement of bond strength in colloidal depletion gels. K. A. Whitaker1, L. C. Hsiao2, M. J. Solomon2, E. M. Furst1; 1Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Chemical Engineering, University of Michigan, Ann Arbor, MI.

2:50 154. Stress overshoots and residual stresses in colloidal glasses: Relation with microscopic structure and dynamics. M. Laurati1, N. Koumakis2, G. Petekidis2, M. Fuchs3, C. Amann3, J. F. Brady4, J. Brader5, T. Voigtmann6, S. Egelhaaf1; 1Heinrich-Heine University Düsseldorf, Düsseldorf, GERMANY, 2IESL-FORTH, Heraklion, GREECE, 3Universität Konstanz, Konstanz, GERMANY, 4Caltech, Pasadena, CA, 5University of Fribourg, Fribourg, SWITZERLAND, 6DLR, Köln, GERMANY.

76 77

Wetting and Adhesion 2: Wetting on Structured Surfaces

Monday, June 23, 2014, 1:30 PM - 3:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: H. Yoon

1:30 155. Dewetting of liquid-infused surfaces. J. S. Wexler, I. Jacobi, H. A. Stone; Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ.

1:50 156. Unidirectional spreading on slanted nanopillars and their clustering events.H. Yoon1, S. Kim2, H. Lee1; 1Seoul National University of Science & Technology, Seoul, KOREA, REPUBLIC OF, 2Seoul National University, Seoul, KOREA, REPUBLIC OF.

2:10 157. In situ surface modifi cation induced superhydrophobic patterns with reversible wettability and adhesion. J. Huang1, Y. Lai1,2; 1College of Textile and Clothing Engineering, Suzhou, CHINA, 2National Engineering Laboratory of Modern Silk, Suzhou, CHINA.

2:30 158. Bubble adhesions on micropillared super-aerophobic surfaces. R. Ozbay1, A. Kibar2, C. Choi1; 1Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ, 2Department of Mechanical and Material Technologies, Kocaeli University, Kocaeli, TURKEY.

2:50 159. A thermodynamic model for the wetting characteristics of hierarchical physically-patterned surfaces. M. S. Bell1, K. A. Fichthorn2, A. Borhan2; 1Physics, Penn State University, University Park, PA, 2Chemical Engineering, Penn State University, University Park, PA.

Active Colloids 3: Spherical Particles II


Organizers: Zvonimir Dogic, Christina MarchettiPresider: Z. Dogic

3:40 160. Active droplets: motion mechanisms and collective dynamics. S. Thutupalli; Princeton University, Princeton, NJ.

4:00 161. Artifi cial Rheotaxis. j. palacci1, S. Sacanna2, D. Pine1, P. Chaikin1; 1Physics, NYU, CSMR, NYC, NY, 2Chemistry, NYU,, NYC, NY.

4:20 162. Active matter transport and jamming on disordered landscapes. C. Reichhardt, C. J. Reichhardt; Los Alamos National Laboratory, Los Alamos, NM.

4:40 163. Keynote Lecture: Active colloidal suspensions, from single particle dynamics to collective phase behavior. L. Bocquet; University of Lyon and MIT, Cambridge, MA.

78 79

Biocolloids 3: Interactions IIMonday, June 23, 2014, 3:40 PM - 5:20 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: S. Fraden

3:40 164. Bridging interactions of proteins with silica nanoparticles. B. Bharti1,2, J. Meissner2, G. H. Findenegg2; 1North Carolina State University, Raleigh, NC, 2Technische Universitaet Berlin, Berlin, GERMANY.

4:00 165. Binding large globular particles to long polymer chains. A. Souslov1, J. E. Curtis1,2, P. M. Goldbart1; 1School of Physics, Georgia Institute of Technology, Atlanta, GA, 2Parker H. Petit Institute of Bioengineering and Bioscience (IBB), Georgia Institute of Technology, Atlanta, GA.

4:20 166. Novel biocolloids based on strong intermolecular interactions between polymers and low molecular weight molecules. K. P. Velikov1,2; 1Unilever R&D Vlaardingen, Vlaardingen, NETHERLANDS, 2Soft Condensed Matter, Debye Institute for Nanomaterials Science, Utrecht University, Utrecht, NETHERLANDS.

4:40 167. Diffusing Colloidal Probes of Cancer Cells. G. Duncan, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins, Baltimore, MD.

5:00 168. CELLULOSE NANOCRYSTALS WITH TUNABLE SURFACE CHARGE FOR BIOMEDICAL APPLICATIONS. Z. Hosseinidoust1, M. A. Alam2, G. Sim2, N. Tufenkji1, T. van de Ven2; 1Chemical Engineering, Mcgill, montreal, QC, CANADA, 2Chemistry, Mcgill, montreal, QC, CANADA.

Biointerfaces 3: Probes and TechniquesMonday, June 23, 2014, 3:40 PM - 5:20 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: N. Ramakrishnan

3:40 169. Amphiphilic Carbon Quantum Dots Light Up Membranes and Cells. R. Jelinek, S. Nandi; Chemistry, Ben Gurion University, Beer Sheva, ISRAEL.

4:00 170. Accurate optical detection of lipids and proteins at the liquid crystal-aqueous solution interface. P. Popov1, E. E. Kooijman2, E. K. Mann1, A. Jakli3; 1Department of Physics, Kent State University, Kent, OH, 2Department of Biology, Kent State University, Kent, OH, 3Liquid Crystal Institute, Kent State University, Kent, OH.

4:20 171. Quantifying Phagocytosis with Opsonized Lipid Microdroplets J. FATTACCIOLI; Ecole Normale Supérieure, Paris, FRANCE.

4:40 172. Assessment of surfactants for effi cient droplet PCR in mineral oil using the pendant drop technique. K. R. Pandit1, S. R. Raghavan1, I. M. White2; 1Department of Chemical and Biomolecular Engineering, University of Maryland College Park, College Park, MD, 2Fischell Department of Bioengineering, University of Maryland College Park, College Park, MD.

5:00 173. FRAM (fl uorescence recovery after merging): A new insight into mutual diffusion of phospholipids at fl uid/fl uid interfaces. S. Q. Choi; KAIST, Daejon, KOREA, REPUBLIC OF.

80 81

Colloidal and Surface Forces 3: FilmsMonday, June 23, 2014, 3:40 PM - 5:20 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: D. J. Beltran-Villegas

3:40 174. Evaporation of sessile drops: effect of particle shape and DLVO interactions on pattern formation. V. Dugyala, M. G. Basavaraj; Department of Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

4:00 175. The evaporation of a capillary bridge between a particle and a substrate M. Neeson1,2, R. Tabor2,3, F. Grieser2,4, R. Dagastine2,5, D. Chan1,2; 1Department of Mathematics and Statistics, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 2Particulate Fluids Processing Centre, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 3School of Chemistry, Monash University, Clayton, Victoria 3800, AUSTRALIA, 4School of Chemistry, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 5Department of Chemical and Biomolecular Engineering, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA.

4:20 176. Aggregation of inkjet ink components by Mg2+ and Ca2+ salts in relation to inkjet print quality. A. Oko1, A. Swerin1, B. D. Brandner1, D. Bugner2, W. Cook3, P. M. Claesson4; 1Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, SWEDEN, 2Eastman Kodak Company, Rochester, NY, 3Eastman Kodak Company, Dayton, OH, 4Surface and Corrosion Science, KTH Royal Institute of Technology, Stockholm, SWEDEN.

4:40 177. Reconfi gurable self-repairing magnetic chains bound by nanocapillary interactions. B. Bharti1, A. Fameau2, O. D. Velev1; 1North Carolina State University, Raleigh, NC, 2INRA, National Institute of French Agricultural Research, Nantes, FRANCE.

5:00 178. Controlling local packing, growth and mechanics in colloidal calcium silicate hydrate gels. E. Del Gado1,2, K. Ioannidou3, E. Masoero4, S. Yip5, P. Levitz6, R. Pellenq7, F. Ulm3; 1Physics, Georgetown University, Washington, DC, 2Civil, Environmental and Geomatic Engineering, ETH Zurich, Zurich, SWITZERLAND, 3Civil and Environmental Engineering, MIT, Boston, MA, 4Civil Engineering, University of Newcastle, Newcastle, UNITED KINGDOM, 5Nuclear Science and Engineering, MIT, Boston, MA, 6PECSA, Universite Pierre et Marie Curie, Paris, FRANCE, 7Civil and Environmental Engineering, MIT and CNRS, Boston, MA.

82 83

Directed Assembly 3: Self-AssemblyMonday, June 23, 2014, 3:40 PM - 5:20 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: C. B. Murray

3:40 179. In situ electron microscopy of colloid aggregation and liquid-vapor interfacial phenomena. N. M. Schneider1, W. Lee1, J. M. Grogan1, F. M. Ross2, H. H. Bau1; 1Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA, 2IBM T. J. Watson Research Center, Yorktown Heights, NY.

4:00 180. Onion-like polymer capsules with multiple concentric shells. B. C. Zarket, S. Antozewski, T. Coyne, S. R. Raghavan; Chemical & Biomolecular Engineering, University of Maryland - College Park, College Park, MD.

4:20 181. Supracolloidal self-assembly of composite microgels. J. J. Crassous, A. M. Mihut, P. Schurtenberger; Physical Chemistry, Department of Chemical Engineering, Lund University, Lund, SWEDEN.

4:40 182. Keynote Lecture: Colloid Design for Directed Assembly through Computational Alchemy. S. Glotzer; Chemical Engineering, University of Michigan, Ann Arbor, MI.

Electrokinetics: Polarizable Particles and Membranes


Organizers: Darrell Velegol, Aditya KhairPresider: A. Khair

3:40 183. Chaotic Induced-Charge Electro-Osmosis. S. M. Davidson, M. B. Andersen, A. Mani; Mechanical Engineering, Stanford University, Palo Alto, CA.

4:00 184. Electroconvection in Heterogeneous Permselective Systems. Y. Green, N. Leibowitz, J. Schiffbauer, S. Park, G. Yossifon; Mechanical Engineering, Technion - Israel Institute of Technology, Haifa, ISRAEL.

4:20 185. Diffusiophoretic transport alters colloidal fouling of membranes. R. Guha, A. Kar, M. Kumar, D. Velegol; Chemical Engineering, Pennsylvania State University, State College, PA.

4:40 186. Keynote Lecture: Electrokinetics with tailored porous materials: direct, in situ measurement of phoretic migration, and nonlinear electrokinetic pumps. T. M. Squires1, J. Paustian1, R. Nery Azevedo1, A. Pascall2; 1UCSB Chemical Engineering, Santa Barbara, CA, 2Lawrence Livermore National Laboratory, Livermore, CA.

84 85

Emulsions, Bubbles and Foams 3: Tailoring Emulsion Stability with ParticlesMonday, June 23, 2014, 3:40 PM - 5:20 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: A. Maestro

3:40 187. Novel Classes of Multi-Stimuli Responsive Pickering Foams.S. Lam1, E. Blanco1, S. K. Smoukov1, K. P. Velikov2, S. A. Khan1, A. L. Fameau3, O. D. Velev1; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Soft Condensed Matter, Debye Institute for Nanomaterials, Utrecht University, Utrecht, NETHERLANDS, 3Biopolymères Interactions Assemblages, INRA, Nantes, FRANCE.

4:00 188. Interfacial affi nity of microgels and consequences for Pickering emulsions. M. Kwok, T. Ngai; Chemistry, The Chinese University of Hong Kong, Hong Kong, HONG KONG.

4:20 189. Limited coalescence model for emulsions stabilized by oppositely charged colloids. T. Nallamilli, M. Basavaraj, E. Mani; Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

4:40 190. Tailored emulsion stability by the interfacial rheology of rough nanoparticles. R. Van Hooghten1, R. Sharma2, J. Vermant1,3; 1Department of Chemical Engineering, KU Leuven, Heverlee, BELGIUM, 2Cabot Corporation, Billerica, MA, 3Department of Materials, ETH, Zürich, SWITZERLAND.

5:00 191. Analysis of foam stability in porous media. S. L. Biswal; Chemical Engineering, Rice University, Houston, TX.

Environmental Science 3Monday, June 23, 2014, 3:40 PM - 5:20 PMHouston Golkin


3:40 192. Keynote Lecture: Multifunctional Nanoscale Material Platforms for Advanced Water Treatment and Environmental Sensing. J. D. Fortner, P. Biswas, W. Li, S. Lee, W. Wang, Y. Jiang; Energy, Environmental and Chemical Engineering, Washington University in St. Louis, St. Louis, MO.

4:20 193. Simultaneous redox transformation of As(III) and Cr(VI) on environmentally relevant surfaces. E. B. Cerkez1, N. Bhandari1, A. Thenuwara1, R. J. Reeder2, D. R. Strongin1; 1Chemistry, Temple University, Philadelphia, PA, 2Geosciences, Stony Brook University, Stony Brook, NY.

4:40 194. Arsenic removal from groundwater using iron-copper oxide nanocomposites. Y. Babaee, C. Mulligan, M. Rahaman; Building ,Civil &Environmental Engineering, Concordia University, Montreal, QC, CANADA.

5:00 195. Adsorptive removal of arsenate from aqueous solution by Y-Mn binary oxide. Y. YU, L. YU, J. P. Chen; Civil and Environmental Engineering, National University of Singapore, Singapore, SINGAPORE.

86 87

General Papers 3: InteractionsMonday, June 23, 2014, 3:40 PM - 5:20 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: M. Bevan

3:40 196. Invited Lecture: Interactions between Immobilized Protein Coatings measured using AFM and TIRM at High Ionic Strength. T. Balasuriya1, B. Berger2, A. Lenhoff3, S. I. Sandler3, R. Dagastine1; 1Chemical and Biomolecular Engineering, The University of Melbourne, Melbourne, AUSTRALIA, 2Chemical Engineering, Lehigh University, Bethlehem, PA, 3Chemical and Biomolecular Engineering, University of Delware, Newark, DE.

4:00 197. Near-fi eld light scattering particle characterization technique utilizing optical gradient forces. P. Schein, D. Erickson; Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY.

4:20 198. Macroion Interaction with Lipid and Polymer Vesicles. Y. Zhu, B. Jing; Department of Chemical and Biomolecular Engineering, University of Notre Dame, Notre Dame, IN.

4:40 199. Keynote Lecture: Lubrication and wet adhesion in the presence of draining channels. J. Frechette, C. Dhong; Johns Hopkins University, Baltimore, MD.

5:00 200. Unraveling the physical pathways and energetics of the thermally-induced structural evolution of hydrogenated amorphous carbon surfaces. F. Mangolini1, J. Hilbert2, J. McClimon1, J. R. Lukes2, R. W. Carpick2; 1Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

Glasses/Jamming 3: Vibrations/Active Materials

Monday, June 23, 2014, 3:40 PM - 5:20 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: M. Manning

3:40 201. Soft modes and non-affi ne rearrangements in the inherent structures of supercooled liquids. E. Del Gado1,2, M. Mosayebi3, A. Widmer-Cooper4, P. Ilg5,6; 1Physics, Georgetown University, Washington, DC, 2Civil, Environmental and Geomatic Engineering, ETH Zurich, Zurich, SWITZERLAND, 3Physics, Oxford University, Oxford, UNITED KINGDOM, 4Chemistry, University of Sidney, Sidney, AUSTRALIA, 5Applied Mathematics, University of Reading, Reading, UNITED KINGDOM, 6Materials, ETH Zurich, Zurich, SWITZERLAND.

4:00 202. Keynote Lecture: Nonequilibrium structures and glassy dynamics in dense systems of active and living particles. L. Berthier; Universite Montpellier 2, Montpellier, FRANCE.

4:40 203. Glassy dynamics of self-propelled particles. G. Szamel1, E. Flenner1, L. Berthier2; 1Department of Chemistry, Colorado State University, Fort Collins, CO, 2Laboratoire Charles Coulomb, Universite Montpellier II, Montpellier, FRANCE.

88 89

Molecular Self-Assembly 3Monday, June 23, 2014, 3:40 PM - 5:20 PMCohen Terrace


3:40 204. Single-step high fi delity fabrication of semiconductor nanorods with controlled geometries using block copolymer templates. C. I. Pelligra, S. Huang, C. O. Osuji; Yale University, New Haven, CT.

4:00 205. Direct monitoring of the exchange kinetics between diblock copolymer micelles by Fluorescence Correlation Spectroscopy. D. Schaeffel, R. Staff, A. Kreyes, Y. Zhao, K. Landfester, H. Butt, D. Crespy, K. Koynov; Max Planck Institute for Polymer Research, Mainz, GERMANY.

4:20 206. paper withdrawn.

4:40 207. RAFT dispersion polymerization in non-polar solvents: facile production of block copolymer spheres, vesicles and thermo-responsive worms in n-alkanes. L. A. Fielding, J. A. Lane, M. J. Derry, S. P. Armes; Department of Chemistry, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

5:00 208. Morphologies of a diblock copolymer droplet in a homogeneous polymer mixture. D. Q. Ly, C. Makatsoris; Brunel University, London, UNITED KINGDOM.


Monday, June 23, 2014, 3:40 PM - 5:20 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: N. Sharifi -Mood

3:40 209. Adsorption and Marangoni Transport of Colloidal Particles. G. Dunér1, R. D. Tilton1,2, S. Garoff3, T. M. Przybycien1,2; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA, 3Physics, Carnegie Mellon University, Pittsburgh, PA.

4:00 210. DYNAMICS OF JANUS COLLOID ADSORPTION TO LIQUID-LIQUID INTERFACES. S. Razavi1, A. Wang2, V. N. Manoharan2, J. Koplik3, I. Kretzschmar1; 1Department of Chemical Engineering, City College of New York, New York, NY, 2School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, 3Benjamin Levich Institute and Department of Physics, City College of New York, New York, NY.

4:20 211. Absorption and assembly at all-aqueous interfaces with ultralow interfacial tension. A. Shum1,2, Y. Song1,2, J. Li1; 1Department of Mechanical Engineering, University of Hong Kong, Hong Kong, HONG KONG, 2HKU-Shenzhen Institute of Research and Innovation (HKU-SIRI), Shenzhen, CHINA.

4:40 212. Effect of surface-modifi ed silica nanoparticles on interfacial tension between poly (lactic acid) melts and supercritical carbon dioxide. K. Sarikhani1, R. P. Thompson2, C. B. Park3, P. Chen1; 1Chemical Engineering and Waterloo Institute for Nanotechnology, University of Waterloo, Waterloo, ON, CANADA, 2Department of Physics and Astronomy and Waterloo Institute for Nanotechnology, University of Waterloo, Waterloo, ON, CANADA, 3Mechanical and Industrial Engineering, University of Toronto, Toronto, ON, CANADA.

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5:00 213. Measurements and models of reversible adsorption of nanoparticles at oil-water interface. X. Hua, M. Bevan, J. Frechette; Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

Patchy and Janus Particles 3: Assembly and Phase Behavior of Patchy Colloids

Monday, June 23, 2014, 3:40 PM - 5:20 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: Z. Nie

3:40 214. Keynote Lecture: Unconventional Behavior of Patchy Colloids. F. Sciortino; Physics Department, Sapienza Universita’ di Roma, Rome, ITALY.

4:20 215. Phase behavior under a non-centrosymmetric interaction: shifted charge colloids investigated by Monte Carlo simulation. L. E. Sanchez Diaz, Sr.1, C. Shew2, W. Chen3; 1Biology and Soft matter Division, Oak Ridge National Lab, oak ridge, TN, 2Department of Chemistry, College of Staten Island, City University of New York, NY, 3Biology and Soft matter Division, Oak Ridge National Lab, Oak Ridge, TN.

4:40 216. Versatile (anisotropic) colloidal platform with tunable surface chemistry & interactions. B. G. van Ravensteijn, W. K. Kegel; Chemistry, Utrecht University, Utrecht, NETHERLANDS.

5:00 217. Engineering patchy nanoparticles of controlled morphology and functionality for directed assembly. C. Chomette1, A. Désert1, C. Hubert2, A. Perro-Marre3, A. Crut4, E. Pertreux4, N. Del Fati4, F. Vallée4, S. Mornet1, S. Ravaine2, E. Duguet1, M. Tréguer-Delapierre1; 1ICMCB-CNRS Univ. Bordeaux, Bordeaux, FRANCE, 2CRPP-CNRS Univ. Bordeaux,, Bordeaux, FRANCE, 3ISM Univ. Bordeaux,, Bordeaux, FRANCE, 4LASIM Univ. Lyon, Lyon, FRANCE.

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Rheology and Dynamics 3Monday, June 23, 2014, 3:40 PM - 5:20 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: J. Gilchrist

3:40 218. Linear viscoelasticity of soft glassy materials. Y. M. Joshi; Indian Institute of Technology Kanpur, Kanpur, INDIA.

4:00 219. Responses of soft colloidal star-like micelle suspensions to large-amplitude oscillatory shearing. S. Rogers1, S. Gupta2; 1Chemical Biomolecular Engineering, University of Delaware, Newark, DE, 2JCNS-SNS, Oak Ridge National Laboratory, Oak Ridge, TN. 4:20

4:20 220 Examination of the role of contact friction in shear thickening and the jamming transition. J. F. Morris1, R. Mari2, R. Seto2, M. M. Denn1; 1Levich Institute and Chemical Engineering, City College of New York, New York, NY, 2Levich Institute, City College of New York, New York, NY.

4:40 221 Analyse the simultaneous appear-ance of gradient and vorticity shear bands by using Time-Resolved Rheo-SANS and laser-light transmittance measurements. A. Mütze, P. Heunemann, P. Fischer; Food Process Engineering, ETH Zurich, Zürich, SWITZERLAND.

5:00 222. Viscoelasticity of a colloidal gel during dynamical arrest: evolution through a critical gel state and comparison with a soft colloidal glass. C. Osuji1, A. Negi2, C. G. Redmon3, S. Ramakrishnan3; 1Chemical and Environmental Engineering, Yale University, New Haven, CT, 2Physics, IISER-Bhopal, Bhopal, INDIA, 3Chemical and Biomedical Engineering, FAMU-FSU College of Engineering, Tallahassee, FL.

Wetting and Adhesion 3: Wetting and Condensation

Monday, June 23, 2014, 3:40 PM - 5:20 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: R. Gupta

3:40 223. Condensation growth mechanics during breath fi gure formation on Lubricants and Lubricant Impregnated Surfaces. S. Anand1, K. Rykaczewski2, S. B. Subramanyam1, D. Beysens3, K. Varanasi1; 1Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA, 2Mechanical Engineering, Arizona State University, Tempe, AZ, 3CEA-ESEME, ESPCI-PMMH, PARIS, FRANCE.

4:00 224. Wetting of cryogenic liquids: van der Waals interactions and fi lm thickness. R. Gupta1, P. A. Houghton2, D. Lee1, G. A. Meski2, K. J. Stebe1, S. Swaminathan2; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Air Products and Chemicals Inc., Allentown, PA.

4:20 225. Acrylic Copolymer Coatings with Excellent Antifogging and Frost-Resisting Properties. J. Zhao, W. Ming; Chemistry, Georgia Southern University, Statesboro, GA.

4:40 226. Anti-icing and anti-frost properties of superhydrophobic nano-textured surfaces. S. Bengaluru Subramanyam, K. Varanasi; Massachusetts Institute of Technology, Cambridge, MA.

5:00 227. Studies on the Wetting Films of Water Formed on Bitumen, Asphaltene, and Maltene. J. Ma, R. Yoon; Center for Advanced Separation Technologies, Virginia Tech, Blacksburg, VA.

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Poster Session: Bio-ColloidsMonday, June 23, 2014, 5:30 PM - 7:30 PMHouston Bodek Lounge

Organizers: Ilona Kretzschmar, Raymond Tu, Valeria Garbin, Lorenzo BottoPresider: R. Tu

5:30 228. FRET based kinetics and thermodynamics study revealed auto-inhibition mechanism in endophilin A1. Z. Chen, K. Chang, B. R. Capraro, C. Zhu, C. Hsu, T. Baumgart; Chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 229. Protein-Spanning Water Networks and Implications for Ubiquitous, Weak Protein-Protein Interactions Mediated through Hydrophobic Effects. D. Cui; University of Delaware, Newark, DE.

5:30 230. The combined effects of surface chemistry and nanoscale topography on biofi lm nucleation in Pseudomonas aeruginosa. J. Zhang1, J. Huang2, C. Say1, R. L. Dorit3, K. Queeney4; 1Biochemistry, Smith College, Northampton, MA, 2Engineering, Smith College, Northampton, MA, 3Biological Sciences, Smith College, Northampton, MA, 4Chemistry, Smith College, Northampton, MA.

5:30 231. Size and Count Analysis of Fluorescently Labeled Nanoparticles In Complex Biological Media. A. Morfesis1, D. Griffi ths2, J. Munhall1, S. Capracotta1; 1Malvern Instruments, Westborough, MA, 2Malvern Instruments, Rancho Cucamonga, CA.

5:30 232. Enhancement of the spreading of phospholipids on liquid subphases via aerosolization. A. Z. Stetten1, T. E. Corcoran2, S. Garoff1, T. Przybycien3, R. D. Tilton3; 1Physics, Carnegie Mellon University, Pittsburgh, PA, 2Medicine, University of Pittsburgh, Pittsburgh, PA, 3Chemical Engineering and Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

5:30 233. Impedimetric biosensors for detecting VEGF based on PEDOT/Au nanoparticle composites. M. Kim1, R. Iezzi, Jr.2, D. C. Martin1; 1Materials Science and Engineering, University of Delaware, Newark, DE, 2Ophthalmology, Mayo Clinic, Rochester, MN.

5:30 234. Role of Biopolymer Particles in the Effi cient Stabilization of Pickering Foams. S. Lam1, H. Fauser2, M. Uhlig2, R. v. Klitzing2, O. D. Velev1; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Stranski Laboratory for Physical and Theoretical Chemistry, Institute of Chemistry, Technical University Berlin, Berlin, GERMANY.

5:30 235. Recombinant protein-stabilized microbubbles for antivascular ultrasound theranostics. F. E. Angilè1, K. Vargo1, D. A. Hammer1, C. M. Sehgal2, D. Lee1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Radiology, University of Pennsylvania School of Medicine, Philadelphia, PA.

5:30 236. Thermodynamics of cell-penetrating peptides translocation and transient pore and cavity formation of model lipid bilayers. Y. Hu, S. Sinha, X. Liu, S. Patel; Department of Chemistry and Biochemistry, University of Delaware, Newark, DE.

5:30 237. Kinetics of oxygen transport between calcium phosphate coated emulsion and hemoglobin. K. Han1, C. Takagi1, H. Mizukami2, A. Ostafi n3,4,2; 1Materials Science and Engineering, University of Utah, Salt Lake City, UT, 2Nanoshell Co., Layton, UT, 3Chemical Engineering, University of Utah, Salt Lake City, UT, 4Nano Institute, University of Utah, Salt Lake City, UT.

5:30 238. Nano-bio interactions at lung surfactant fi lms. R. P. Valle, Y. Y. Zuo; Mechanical Engineering, University of Hawaii, Honolulu, HI.

5:30 239. Correlated phase separation in stacked lipid membranes. T. Hoshino1, S. Komura1, D. Andelman2; 1Department of Chemistry, Tokyo Metropolitain University, Tokyo, JAPAN, 2School of Physics and Astronomy, Tel Aviv University, Tel Aviv, ISRAEL.

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5:30 240. Novel Plasmonic Nanostructures for Single Molecule Surface-Enhanced Raman Scattering and Bio Applications. D. Lim; BIN Fusion Technology, Chonbuk National University, Jeonju, KOREA, REPUBLIC OF.

5:30 241. Role of surface properties in initial attachment of bacteria. S. Sharma, J. Conrad; University of Houston, Houston, TX.

5:30 242. Design principles for accelerating the high-yield self-assembly of biomolecular complexes. J. Zenk1, R. Schulman2; 1Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD, 2Chemical and Biomolecular Engineering and Computer Science, Johns Hopkins University, Baltimore, MD.

5:30 243. Docetaxel-Doped Calcium Phosphosilicate Nanoparticles in Treatment of Breast Cancer. X. Tang; Chemistry, Pennsylvania State University, State College, PA.

5:30 244. Directed assembly of functional Au nanostructures on amphiphilic peptide scaffolds formed at the air/water interface. R. Jelinek, T. Vinod; Chemistry, Ben Gurion University, Beer Sheva, ISRAEL.

5:30 245. Shape changes in hybrid hydrogels: Mimicking biological processes in plants. A. Gargava1, R. Ragunathan2, S. R. Raghavan1; 1Chemical and Biomolecular Engineering, University of Maryland College Park, College Park, MD, 2Fischell Department of Bioengineering, University of Maryland College Park, College Park, MD.

5:30 246. Near infrared radiation transmission through porcine muscle tissue. M. Li, X. Tang, J. Adair, B. Adair; Materials Science and Engineering, Penn State, state college, PA.

5:30 247. Molecular Relaxation of Pharmaceutical Glasses. D. Wang, J. Heng, D. Williams; Department of Chemical Engineering, Imperial College London, London, UNITED KINGDOM.

5:30 248. Monocyte labeling with gold nanoparticles: Effect of core size on cell uptake. B. Benardo1, P. Chhour2, P. C. Naha2, M. P. Reilly2, V. A. Ferrari2, D. P. Cormode2; 1Biomedical Engineering, Drexel University, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

5:30 249. Free energetics of cell penetrating peptide translocation into POPC/POPG membrane and membrane softening effect induced by peptide binding. X. Liu; University of Delaware, Newark, DE.

5:30 250. Regulation of membrane curvature sensing & generating through the BAR domain protein BIN1 via intra-molecular autoinhibition. T. Wu, T. Baumgart; Chemistry Department, University of Pennsylvania, Philadelphia, PA.

5:30 251. Free-standing and tethered lipid bilayers as a model system to study protein-induced membrane protrusion. K. I. Jankowska1, N. Li2, K. J. Stebe2, T. Baumgart1; 1Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 2Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

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Poster Session: Fundamentals of Colloids

Monday, June 23, 2014, 5:30 PM - 7:30 PMHouston Hall of Flags

Organizers: Ilona Kretzschmar, Raymond Tu, Valeria Garbin, Lorenzo BottoPresider: I. Kretzschmar

5:30 252. Synthetic tuning of heterostructured nanoparticles for catalytic applications. S. Zhang, V. Doan-Nguyen, Y. Hao, C. B. Murray; Chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 253. Gold nanorod linking to control plasmonic properties in solution and polymer nanocomposites. R. C. Ferrier, Jr.1, M. Eibling2, G. Gines3, H. Lee4, M. J. Hore5, M. Caporizzo5, D. M. Eckmann6, P. Rannou3, D. Gasparutto3, J. G. Saven2, R. J. Composto5; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Chemistry, University of Pennsylvania, Philadelphia, PA, 3CEA / INAC, Grenoble, FRANCE, 4University of Pennsylvania, Philadelphia, PA, 5Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 6Institute of Medicine and Engineering, University of Pennsylvania, Philadelphia, PA.

5:30 255. Dynamics of polymer-grafted nanoparticle in polymer melts. C. Lin1, K. Ohno2, N. Clarke3, K. I. Winey1, R. J. Composto1; 1Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 2Kyoto University, Kyoto, JAPAN, 3University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

5:30 256. Tunability of gold nanoparticles surface chemistry. L. Malassis1, P. Liu1, S. Ke1, R. Dreyfus2, R. Murphy2, B. Donnio2, L. Hough2, C. Murray1; 1Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 2Complex Assemblies of Soft Matter Laboratory, UMI 3254 (CNRS-Rhodia/Solvay-University of Pennsylvania), Bristol, PA.

5:30 257. Fabrication of binary superlattice with quantum dots formed by cation exchange. Y. Wu1, B. Diroll1, A. Gaulding2; 1Chemistry, University of Pennsylvania, Philadelphia, PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

5:30 258. Interfacial molarities of gemini micelles with different counterions: Ion specifi c effects by chemical trapping. C. Liu1, A. Malinenko2, L. S. Romsted1, M. Porrini2, R. Oda2, M. Laguerre2; 1Chemistry and Chemical Biology, Rutgers, The State University of New Jersey, Piscataway, NJ, 2Institut Europe´en de Chimie et Biologie, University of Bordeaux, Bordeaux, FRANCE.

5:30 259. Interfacial behavior of Janus particles with controlled undulation in wettability separation line. A. Kumar, D. Lee; Chemical & Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

5:30 260. Concentration of particle suspensions in microfl uidic droplet arrays. S. M. Vuong1, B. J. Bleier1, S. L. Anna2, L. M. Walker1; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engineering and Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

5:30 261. Clay particles in aqueous biphasic systems. F. Pir-Cakmak, C. D. Keating; Chemistry, Penn State, State College, PA.

5:30 262. Spatially heterogeneous dynamics in dense colloidal suspensions with short-range attractive potential. Z. J. Brown, P. Habdas, M. Iwanicki, G. Hogan; Physics, Saint Josephs University, Philadelphia, PA.

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5:30 263. Living Clusters in Suspensions of Active Colloids. B. M. Mognetti1, A. Saric2, S. Angioletti-Uberti3, A. Cacciuto4, C. Valeriani5, D. Frenkel2; 1Département de Physique, Universite Libre de Bruxelles, Bruxelles, BELGIUM, 2Department of Chemistry, University of Cambridge, Cambridge, UNITED KINGDOM, 3Institute of Physics, Humboldt University of Berlin, Berlin, GERMANY, 4Department of Chemistry, Columbia University, New York, NY, 5Departamento de Química Física, Universidad Complutense de Madrid, Madrid, SPAIN.

5:30 264. Bi-directional assembly of colloidal particle by combined electric and magnetic fi elds. B. Bharti1, F. Kogler2, S. H. Klapp2, C. Hall1, O. D. Velev1; 1North Carolina State University, Raleigh, NC, 2Technische Universitaet Berlin, Berlin, GERMANY.

5:30 265. Study on the effect of particle anisotropy on phase behavior with tunable attractive strength. Y. S. Kim, N. J. Wagner; University of Delaware, Newark, DE.

5:30 266. Synthesis and Application of Colloidal Dimers. S. Wang, N. Wu; Chemical and biological engineering, Colorado School of Mines, Golden, CO.

5:30 267. Assembly of “Anisotropic” Colloidal Dimers and Spheres Under Applied Electric Fields. f. ma1, s. wang1, H. Zhao2, D. Wu3, N. Wu1; 1chemical and biological engineerning, colorado school of mines, golden, CO, 2Department of Mechanical Engineering, University of Nevada, Las Vegas, Las Vegas, NV, 3chemistry and geochemistry, colorado school of mines, golden, CO.

5:30 268. Spontaneous deposition of noble metal nanostructures into surface-functionalized highly open porous polymer microspheres. H. Son1, D. Lee2, J. Lee3, C. Park3, H. Ryoo3, Y. Nam1,4; 1Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology, Daejeon, KOREA, REPUBLIC OF, 2Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology, Daejeon, KOREA, REPUBLIC OF, 3COSMAX Research & Innovation Center, Seongnam, KOREA, REPUBLIC OF, 4KAIST Institute for NanoCentury (KINC) and BioCentury (KIB), Korea Advanced Institute of Science and Technology, Daejeon, KOREA, REPUBLIC OF.. 5:30

5:30 269. Impact of colloidal deposition on the fouling of osmotically driven membrane process. K. Garrido1, A. Jang2, S. Kang1; 1Civil Engineering, Kyung Hee University, Yongin-si, KOREA, REPUBLIC OF, 2Architechture and Civil Engineering, Sungkyunkwan University, Suwon-si, KOREA, REPUBLIC OF.

5:30 270. Polymerisation of CdSe@ZnS doped PMMA spheres in non-polar solvents. J. Tongkhundam; Physical chemistry, University of Bristol, Bristol, UNITED KINGDOM.

5:30 271. Packing manipulation of colloidal and molecular crystals using imprinted structures. X. Zhong, S. Lee, M. Ward; Chemistry, New York University, New York, NY.

5:30 272. Uniform shape-controlled polymer microparticles synthesized by using poly (ethylene oxide)-b-poly (ε-caprolactone) block copolymer stabilizer. S. Acter, J. Kim*; Hanyang University, 55 hanyangdaehak-ro, sangnok-gu, ansan, KOREA, REPUBLIC OF.

5:30 273. Directed assembly of nanocylinders in electrical fi elds. S. J. Boehm1, L. Lin2, T. S. Mayer2, C. D. Keating1; 1Chemistry, Pennsylvania State University, University Park, PA, 2Electrical Engineering, Pennsylvania State University, University Park, PA.

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5:30 274. Surfactant micelle characterization using dynamic light scattering. A. Morfesis1, M. McGann1, M. Kaszuba2; 1Malvern Instruments Inc., Westborough, MA, 2Malvern Instruments Ltd., Malvern, UNITED KINGDOM.

5:30 275. Polyelectrolyte core-shell particles for environmental applications using a microfl uidic fl ow focusing device. C. Menzel, S. G. Yeates; School of Chemistry, University of Manchester, Manchester, UNITED KINGDOM.

5:30 276. Encapsulation of 5-fl uorouracil in calcium phosphosilicate nanoparticles via reverse micelle synthetic approach. W. S. Loc1, G. Matters2, P. J. Butler3, C. O. McGovern2, M. Kester4, J. H. Adair5; 1Chemistry/Materials Science and Engineering, Pennsylvania State University, State College, PA, 2Biochemistry and Molecular Biology, Pennsylvania State University, College of Medicine, Bethesda, MD, 3Department of Bioengineering, Pennsylvania State University, State College, PA, 4Pharmacology, Pennsylvania State University, College of Medicine, Bethesda, MD, 5Materials Science and Engineering, Pennsylvania State University, State College, PA.

5:30 277. Grain Boundary Formation and Motion in Colloidal Crystals. Y. YANG, T. Edwards, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins University, baltimore, MD.

5:30 278. Instabilitydriven macroscale defects in evaporation-driven particle assembly. A. Weldon, K. Joshi, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, PA.

5:30 279. Chiral Colloidal Molecules Assembled from Asymmetric Dimers under Electric Fields. f. ma1, s. wang1, H. Zhao2, D. T. Wu3, N. Wu1; 1chemical and biological engineerning, colorado school of mines, golden, CO, 2Department of Mechanical Engineering, University of Nevada, Las Vegas, Las Vegas, NV, 3chemistry and geochemistry, colorado school of mines, golden, CO.

5:30 280. Colloidal interactions of surface wettability-controlled silica/polymer nanoparticles synthesized by surface-mediated living radical polymerization. J. Cho, S. Choi, J. Kim*; Bionano, Hanyang University, Ansan, KOREA, REPUBLIC OF.

5:30 281. Theta specimen fabrication: From a colloid to a free standing component. B. Babcox, G. Lesieutre, M. Frecker, J. Adair; Pennsylvania State University, University Park, PA.

5:30 282. Aggregation mechanism of colloidal and nano-sized particles in ionic liquids. I. Szilagyi, T. Szabo, A. Desert, G. Trefalt, T. Oncsik, M. Borkovec; University of Geneva, Geneva, SWITZERLAND.

5:30 308a. The nucleation phase: Fundamentals of crystal formation. I. H. Leubner; Research and Development, Rochester Institute for Fundamental Research, Penfi eld, NY.

5:30 285. Electrostatic double layer force for dissimilar dielectric spheres. D. Ether1, F. S. Rosa1, P. Neto1, H. M. Nussenzveig2; 1Instituto de Física, Universidade Federal do Rio de Janeiro, Rio de Janeiro, BRAZIL, 2LPO-COPEA, Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, Rio de Janeiro, BRAZIL.

5:30 286. Selective Growth of TiO2 Shell on Dimpled Polymer Particles. S. Kim, G. Yi; Department of Chemical Engineering, Sungkyunkwan University, Suwon, KOREA, REPUBLIC OF.

5:30 288. Packings and assemblies for continuous families of polyhedra. D. Klotsa1, E. R. Chen2, M. Engel1, P. F. Damasceno3, S. C. Glotzer1,3; 1Department of Chemical Engineering, University of Michigan, Ann Arbor, MI, 2School of Engineering and Applied Science, Harvard University, Cambridge, MA, 3Applied Physics Program, University of Michigan, Ann Arbor, MI.

5:30 289. Unifi ed Theoretical Framework for Shape Entropy in Colloids. G. van Anders, N. K. Ahmed, D. Klotsa, M. Engel, S. C. Glotzer; Department of Chemical Engineering, University of Michigan, Ann Arbor, MI.

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5:30 290. The Discrete Element Method for Faceted Colloidal Particles in Molecular Dynamics. R. Marson1,2, M. Spellings2,3, J. Anderson1,2,3, S. C. Glotzer1,2,3; 1Department of Materials Science & Engineering, University of Michigan, Ann Arbor, MI, 2Biointerface Institute, University of Michigan, Ann Arbor, MI, 3Department of Chemical Engineering, University of Michigan, Ann Arbor, MI.

5:30 291. Design of Nanoplates for Targeted Assembly. J. Millan1, D. Ortiz1, G. van Anders2, S. C. Glotzer1,2; 1Department of Materials Science & Engineering, University of Michigan, Ann Arbor, MI, 2Department of Chemical Engineering, University of Michigan, Ann Arbor, MI.

5:30 292. Packing and assembly behavior of multi-dimpled spheroidal particles. N. K. Ahmed1, G. van Anders1, E. R. Chen2, S. Glotzer1,3; 1Department of Chemical Engineering, University of Michigan, Ann Arbor, MI, 2School of Engineering and Applied Science, Harvard University, Cambridge, MA, 3Department of Materials Science & Engineering, University of Michigan, Ann Arbor, MI.

Poster Session: Fundamentals of Interfaces

Monday, June 23, 2014, 5:30 PM - 7:30 PMHouston Bodek Lounge

Organizers: Ilona Kretzschmar, Raymond Tu, Valeria Garbin, Lorenzo BottoPresider: L. Botto

5:30 293. Stable Glasses of Vapor-Deposited Organic Molecules. T. Liu, Y. Zhang, K. Cheng, E. Salami, P. Walsh, Z. Fakhraai; Chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 294. Free surface facilitation of the dynamics of entangled polymer fi lms. E. C. Glor, Z. Fakhraai; University of Pennsylvania, Philadelphia, PA.

5:30 295. Morphology and ionic conductivity of block copolymer/ionic liquid fi lms aligned by electric fi eld. S. Sharick, K. I. Winey; University of Pennsylvania, Philadelphia, PA.

5:30 296. Flattening and hole growth dewetting of thin fi lms of TPD. Y. Zhang, T. Liu, E. Glor, C. Li, Z. Fakhraai; chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 297. In-situ atomic force microscopy study of catalytic membrane surfaces. M. J. Young1, P. H. Pfromm1, M. E. Rezac1, B. M. Law2; 1Chemical Engineering, Kansas State University, Manhattan, KS, 2Physics, Kansas State University, Manhattan, KS.

5:30 298. Surfactant self-assembly at liquid/solid interfaces. H. Dominguez1, M. Rivera2, M. Pacheco1; 1Material Science Institute, Universidad Nacional Autonoma de Mexico, Mexico DF, MEXICO, 2Institute of Physics, Universidad Nacional Autonoma de Mexico, Mexico DF, MEXICO.

5:30 299. Structural transitions of pluronics in the protic ionic liquid ethyl ammonium nitrate. R. Chen1, C. R. Lopez-Barron2, N. J. Wagner1; 1Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Global Chemical Research, ExxonMobil Chemical Company, Baytown, TX.

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5:30 300. Role of surface structure on elastohydrodynamic forces between elastomer surfaces. Y. Wang, J. Frechette; Chemical and Biomolecular Engineering, The Johns Hopkins University, Baltimore, MD.

5:30 301. Large area formation of anisotropic silver nanostructures on colloidal silica monolayers through dynamic interfacial processes. I. Spies, M. Hanisch, R. Klupp Taylor; Institute of Particle Technology, Friedrich-Alexander-University of Erlangen-Nuremberg, Erlangen, GERMANY.

5:30 302. Effect of surface roughness on particle retention on natural and surrogate produce surfaces. V. Lazouskaya1, T. Sun1, G. Wang1, C. Shen2, W. Zheng1, Y. Jin1; 1Department of Plant and Soil Sciences, University of Delaware, Newark, DE, 2Department of Soil and Water Sciences, China Agricultural University, Beijing, CHINA.

5:30 303. Colloidal particle diffusion and adsorption on lipid bilayers. N. Li, T. Baumgart, K. Stebe; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

5:30 304. Interpretation of the minimum at surface tension curves of aqueous N-lauroyl sarcosinate solutions. Y. Zhang1, B. McDonald2, L. S. Romsted1; 1Dept. of Chemistry & Chemical Biology, Rutgers, the State University of New Jersey, Piscataway, NJ, 2University of Virginia, Charlottesville, VA.

5:30 305. Mechanism of electrical passivation of Si surfaces with Quinhydrone. N. Kotulak, M. Chen, N. Schreiber, R. Opila; University of Delaware, Newark, DE.

5:30 306. Molecular dynamics simulations of surfactant self-organization in water: implications of thermodynamics and kinetics. s. K. sinha1, N. Ganesan2, S. Patel1; 1chemistry and biochemistry, university of delaware, newark, DE, 2Dept. of Electrical and Computer Engg, university of delaware, Hoboken, NJ.

5:30 307. Rapidly determining surface free energy of cells and particles. X. Zhang1,2, Y. Y. Zuo1; 1Department of Mechanical Engineering, University of Hawaii at Manoa, Honolulu, HI, 2School of Material science and Engineering, University of Science and Technology Beijing, Beijing, CHINA.

5:30 308. Three sisters model for controlled anti-solvent, cooling, and evaporation crystallizations. I. H. Leubner; Research and Development, Rochester Institute for Fundamental Research, Penfi eld, NY.

5:30 309. Vapor phase deposition of alkyl- and fl uoro-silanes on nanoporous glass. O. Fidan1, L. Liu2, T. Fronk2, D. W. Britt1; 1Biological Engineering, Utah State University, Logan, UT, 2Mechanical and Aerospace Engineering, Utah State University, Logan, UT.

5:30 310. Simultaneous nanoscale patterning of chemistry and topography on Si(100). M. S. Beasley, K. T. Queeney; Chemistry, Smith College, Northampton, MA.

5:30 311. Effects of drainage channels on submerged spheres rolling down an inclined plane. C. Argento, C. Dhong, J. Frechette; Chemical and Biomolecular Engineering, The Johns Hopkins University, Baltimore, MD.

5:30 312. Extremely stable PCM nanoemulsions fabricated by assembly of amphiphilic block copolymer at oil-water interface. H. Park, S. Kim, J. Kim*; Hanyang University, Ansan, Gyeonggi-do, KOREA, REPUBLIC OF.

5:30 313. Structural and Optical Analysis of Single-Component and Binary Nanocrystal Superlattice Films. B. Diroll, M. Cargnello, E. A. Gaulding, Y. Wu; Chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 314. A tale of soft surface engineering: The aqueous microdroplet. S. Lee; Chemistry, Iona College, New Rochelle, NY.

5:30 315. Thermal Analysis of High Temperature Helium Adsorption on HZSM-5. H. Lee, Sr.; Chemical Engineering, Aspen System Inc., Marlborough, MA.

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5:30 316. Physico-chemical control of foam properties. N. D. Denkov, S. Tcholakova; Department of Chemical Engineering, Sofi a University, Sofi a, BULGARIA.

5:30 317. Simulated Nematic Textures of Toroidal Droplets. P. W. Ellis, A. Fernandez-Nieves; School of Physics, Georgia Institute of Technology, Atlanta, GA.

5:30 318. Instabilities of electrifi ed toroidal droplets. A. A. Fragkopoulos, E. Pairam, A. Fernandez-Nieves; School of Physics, Georgia Institute of Technology, Atlanta, GA.

Materials, Environment, and Energy Applications

Monday, June 23, 2014, 5:30 PM - 7:30 PMHouston Hall of Flags

Organizers: Ilona Kretzschmar, Raymond Tu, Valeria Garbin, Lorenzo BottoPresider: V. Garbin

5:30 319. Facile fabrication of hybrid cellulose microstructures using a microfl uidic system. N. Lee, S. Song, S. Chang; Chemical Engineering and Materials Science, Chung-Ang Univeristy, Seoul, KOREA, REPUBLIC OF.

5:30 320. Degradation of CdS paints from works from the early 20th century. J. Church; Materials Science & Engineering, University of Delaware, Newark, DE.

5:30 321. A Study on CO2-in-Water Foams for Enhanced Oil Recovery Applications. R. Pramudita1, Y. Kim1, W. Bae2, W. Ryoo1; 1Chemical Engineering, Hongik University, Seoul, KOREA, REPUBLIC OF, 2Energy and Mineral Resources Engineering, Sejong University, Seoul, KOREA, REPUBLIC OF.

5:30 322. Continuous Langmuir-Blodgett particle deposition. E. Daniels, A. Weldon, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, PA.

5:30 323. Novel materials: Nanoparticles of the lanthanide series. N. Kim1, M. Goh1, A. Lupascu2, Y. Kim2; 1Chemistry, University of Toronto, Toronto, ON, CANADA, 2Physics, University of Toronto, Toronto, ON, CANADA.

5:30 324. Solubility of Dioctyl Sodium Sulfosuccinate Under Hydrate Forming Conditions. R. Xiong1, X. Li1, A. Couzis1, J. W. Lee1,2; 1Chemical Engineering, The City College of New York, New York, NY, 2Chemical & Biomolecular Engineering, KAIST, Daejeon, KOREA, REPUBLIC OF.

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5:30 325. Microfl uidic directed assembly of nano-scale unilamellar vesicles. J. Ko1, M. Muluneh2, A. Tsourkas2, Z. Cheng2, D. Issadore1; 1Bioengineering, University of Pennsylvania, Philadelphia, PA, 2University of Pennsylvania, Philadelphia, PA.

5:30 326. Fabrication of Asymmetric Structures by Directional Photo-Polymerization. H. Lee1, S. Kim2, H. Yoon1; 1Seoul National University of Science & Technology, Seoul, KOREA, REPUBLIC OF, 2Seoul National University, Seoul, KOREA, REPUBLIC OF.

5:30 327. Obtaining material responses accurately and effi ciently from time-resolved scattering experiments. S. Rogers, M. Calabrese, N. J. Wagner; Chemical Biomolecular Engineering, University of Delaware, Newark, DE.

5:30 328. Investigation of interfacial properties and phase behavior of propoxylated surfactants for enhanced oil recovery application. Y. Kim, W. S. Ryoo; Chemical Engineering, Hongik University, Seoul, KOREA, REPUBLIC OF.

5:30 329. Electronic and chemical properties of (Cu,Ag)(In,Ga)Se2 semiconductors. K. J. Jones; Material Science, University of Delaware, Newark, DE.

5:30 330. Three-dimensional chiral plasmonic nanostructures with high optical activity. B. Yeom1, H. Zhang1, H. Zhang2, A. Govorov2, N. Kotov1; 1Chemical engineering, University of Michigan, Ann Arbor, MI, 2Department of Physics, Ohio University, Athens, OH.

5:30 331. Ionically Crosslinked Polyelectrolytes as Stimulus-Responsive Underwater Adhesives. P. G. Lawrence, Y. Huang, Y. Lapitsky; Chemical Engineering, University of Toledo, Toledo, OH.

5:30 332. Modifi ed Mesoporous Silica Membranes on Polymeric Hollow Fibers for Separation Applications. H. Kim1, K. Jang2, W. J. Koros3, S. Nair3, C. W. Jones3; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Korea Research Institute of Chemical Technology, Daejeon, KOREA, REPUBLIC OF, 3Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA.

5:30 333. Surface modifi cation of polymers using high-pressure carbon dioxide and block copolymer. C. Park, W. S. Ryoo; Chemical Engineering, Hongik University, Seoul, KOREA, REPUBLIC OF.

5:30 334. Fabrication of monodispersed polyurethane elastomer microparticles with graphene oxide/polyelectrolyte hybrid shell layers for detection of structural colloidal deformation. S. Kim, H. Park, J. Kim*; Applied chemistry, Hanyang University, Ansan, Gyeonggi-do, KOREA, REPUBLIC OF.

5:30 335. Fabrication of nanofl uids including nanoparticles with repulsive zwitterionic polymer layers for remarkably enhancing oil recovery. S. Choi, J. Cho, J. Kim*; Hanyang University, Ansan, Gyeonggi-do, KOREA, REPUBLIC OF.

5:30 336. The role of dispersants’ dynamic interfacial tension in effective crude oil spill dispersion. D. Riehm, A. McCormick; Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, MN.

5:30 337. Preparation of custom-designed polyelectrolyte complexes through photodirected assembly. U. K. de Silva, N. H. Okoye, J. A. Wengatz, Y. Lapitsky; Chemical and Environmental Engineering, University of Toledo, Toledo, OH.

5:30 338. Microfl uidics based conducting polymer polyaniline particles for sensing and controlled release. S. N. Beesabathuni, J. Kim, J. Chung, A. Shen; Mechanical Engineering, University of Washington, Seattle, WA.

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Plenary Lecture 2Tuesday, June 24, 2014, 8:20 AM - 9:20 AMIrvine Auditorium

Organizers: John Crocker, Kathleen Stebe, Arjun YodhPresider: Kathleen Stebe

8:20 339. Simulations of DNA-mediated self assembly. D. Frenkel, A. Reinhardt; Chemistry, U Cambridge, Cambridge, UNITED KINGDOM.

Abstract:

The self assembly of nano-structured materials consisting of many distinct building blocks is one of the holy grails of nano-science. DNA-coated colloids seemed to be good candidates to achieve this goal, yet the colloidal structures that have been shown to self-assemble are relatively simple. In contrast, approaches based on DNA origami have scored some amazing successes. In my talk I will describe simulations that allow us to understand why, in the case of DNA-coated colloids, `the good news is the bad news’ - but, most importantly, why the bad news does not extend to DNA `bricks’ and related building blocks.

Active Colloids 4: Biological Swimmers

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMDRL A6

Organizers: Zvonimir Dogic, Christina MarchettiPresider: S. J. DeCamp

9:50 340. Do extracellular polysaccharides play distinct mechanical roles that impact the biology of single bacteria and of biofi lms?. V. Gordon, B. Cooley, K. Kovach, C. Rodesney; The University of Texas at Austin, Austin, TX.

10:10 341. Swimming dynamics of Escherichia coli in dilute polymer suspensions. A. E. Koser, P. E. Arratia; Mechanical Engineering, University of Pennsylvania, Philadelphia, PA.

10:30 342. Diffusiophoretically propelled colloidal swimmers in the vicinity of a planar wall boundary. N. Sharifi Mood1, A. Mozaffari2, J. Koplik3, C. Maldarelli2; 1Chemical and Biomo-lecular Engineering, University of Pennsylva-nia, Philadelphia, PA, 2Chemical Engineering, Benjamin Levich Institute ,City College of New York, New York, NY, 3Physics, Benjamin Levich Institute ,City College of New York, New York, NY.

10:50 343. Bacterial locomotion near oil-water interfaces. M. Molaei1, M. Jalali1, L. Vaccari2, K. Stebe2, J. Sheng1; 1Mechanical Engineeing, Texas Tech University, Lubbock, TX, 2Chemical and Biomolecular Engineeing, University of Pennsylvania, Philadelphia, PA.

11:10 344. Rheological properties of Fire ant packings. D. L. Hu1,2, M. J. Tennenbaum3, Z. Liu1, A. Fernandez-Nieves3; 1School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, 2School of Biology, Georgia Institute of Technology, Atlanta, GA, 3Schools of Physics, Georgia Institute of Technology, Atlanta, GA.

11:30 345. Bacterial adhesion and biofi lm formation over substrates with micro-scale oily textures. M. Jalali Mousavi; Mechanical Engineering, Texas Tech University, Woodbury, MN.

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11:50 346. Is it possible the hydrodynamic synchronization of colloidal rotors describing rigid trajectories? -an experimental proof. A. Maestro1, N. Bruot1, J. Kotar1, N. Uchida2, R. Golestanian3, P. Cicuta1; 1BSS, Department of Physics, University of Cambridge, Cambridge, UNITED KINGDOM, 2Department of Physics, Tohoku University, Sendai, JAPAN, 3Rudolf Peierls Centre for Theoretical Physics, University of Oxford, Cambridge, UNITED KINGDOM.

Biocolloids 4: Self-AssemblyTuesday, June 24, 2014, 9:50 AM - 12:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: R. K. Prud’homme

9:50 347. Atomistic simulations of ionic and nonionic spherical and fl ower-like micelles. F. Yuan, S. Wang, R. Larson; University of MIchigan, Ann Arbor, MI.

10:10 348. Probing self-assembly rules in molluscan photonic structures with patchy colloid theory. T. Dodson, J. Cai, J. Townsend, A. Sweeney; Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

10:30 349. Self-assembly of bacterial constructs with biofi lm-like morphology and mechanics. E. J. Stewart1, M. Ganesan1, J. G. Younger2, M. J. Solomon1; 1Chemical Engineering, University of Michigan, Ann Arbor, MI, 2Emergency Medicine, University of Michigan, Ann Arbor, MI.

10:50 350. Nanoparticles of conjugated polymers prepared from phase-separated fi lms of phospholipids and polymers for biological applications. J. PARK, J. Choi, H. Jo; SCHOOL OF CHEMICAL ENGINEERING AND MATERIALS SCIENCE, CHUNG-ANG UNIVERSITY, Seoul, KOREA, REPUBLIC OF.

11:10 351. Insights into membrane thickness fl uctuations. P. Butler1, R. Ashkar2,1, A. Woodka3, M. Nagao4,1; 1National Institute of Standards and Technology, Gaithersburg, MD, 2Universtigy of Maryland, College Park, MD, 3United States Military Academy, West Point, NY, 4University of Indiana, Bloomington, IN.

11:30 352. Adding the 3rd dimension: Challenges in additive manufacturing of composite bone scaffolds for tissue regeneration. E. A. Taylor1, Z. Bushman1, G. Lewis2, H. Donahue2, J. H. Adair1; 1Materials Science and Engineering, The Pennsylvania State University, University Park, PA, 2Orthopaedics and Rehabilitation, Penn State College of Medicine, Hershey, PA.

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11:50 353. Factors controlling the formation and coagulation of chitosan/tripolyphosphate micro- and nanogels. Y. Huang, Y. Lapitsky; Chemical and Environmental Engineering, University of Toledo, Toledo, OH.

Biointerfaces 4: Mechanics ITuesday, June 24, 2014, 9:50 AM - 12:10 PMHouston Class of ‘49

Organizers:Ravi Radakrishnan, Tobias BaumgartPresider: H. Yu

9:50 354. Fundamentals of nanotoxicity: Nanoparticles can cause genotoxic damage by promoting membrane fusion. C. M. Beddoes1, C. P. Case2, W. H. Briscoe3; 1Bristol Centre for Functional Nanomaterials, University of Bristol, Bristol, UNITED KINGDOM, 2Bristol Implant Research Centre, Southmead Hospital, Bristol, UNITED KINGDOM, 3School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

10:10 355. Electrostatic effects in the mechanics of cell membranes. P. Purohit; Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:30 356. Defi ning the free energy landscape of curvature inducing proteins on membrane bilayers. R. W. Tourdot1, N. Ramakrishnan2, R. Radhakrishnan1; 1Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Bioengineering, University of Pennsylvania, Philadelphia, PA.

10:50 357. Self-assembly of colloids on fl uid membranes. A. Saric1, A. Cacciuto2; 1Department of Chemistry, University of Cambridge, Cambridge, UNITED KINGDOM, 2Department of Chemistry, Columbia University, New York, NY.

11:10 358. Modeling protein-induced membrane remodeling from the near-atomic to the mesoscale. R. Bradley1, N. Ramakrishnan2, R. Tourdot1, R. Radhakrishnan2; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

11:30 359. Keynote Lecture: Structure and translocation in Nuclear Pore Complexes. I. Szleifer; Biomedical Engineering, Northwestern University, Evanston, IL.

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Colloidal and Surface Forces 4: Bubbles and Dynamics

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: A. Zaccone

9:50 360. Applications of the Stokes-Reynolds-Young-Laplace Model. C. Wu; Department of Mathematics and Statistics, University of Melbourne, Melbourne, AUSTRALIA.

10:10 361. . Dynamics of a liquid of yolk-shell particles. L. E. Sanchez Diaz, Sr.1, W. Chen1, M. Medina-Noyola2; 1Biology and Soft matter, Oak Ridge National Lab, Oak Ridge, TN, 2Instituto de Fisica “Manuel Sandoval Vallarta’’, Universidad Autonoma de San Luis Potosi, San Luis Potosi, MEXICO.

10:30 362. Keynote Lecture: Role of colloidal forces in unconventional oil processing. Z. Xu, X. Zhang, P. Tchoukov, L. Wang, Q. Liu, J. Masliyah; University of Alberta, Edmonton, AB, CANADA.

11:10 363. Load-induced hydrodynamic lubrication of porous polymer fi lms. N. Pesika, T. Khosla; Chemical and Biomolecular Eng, Tulane University, New Orleans, LA.

11:30 364. Polyelectrolytes and their infl uence on depletion and structural forces between colliding bubbles. C. Browne1, R. Tabor2, F. Grieser1, R. Dagastine1; 1University of Melbourne, Parkville, Victoria, AUSTRALIA, 2Monash University, Clayton, Victoria, AUSTRALIA.

11:50 365. Colloids with Temperature Tunable Interactions. A. M. Alsayed, Y. Zhou, P. Herve, L. Hough; COMPASS, Solvay, Bristol, PA.

Directed Assembly 4: Evaporative and Convective Assembly

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: T. Paik

9:50 366. Vibration-assisted convective deposition. T. Muangnapoh, A. Weldon, M. Joy, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, PA.

10:10 367. Self-assembly in an evaporating nanofl uid droplet: Rapid transformation of nanorods into 3D fi bre network structures. H. Wu1, W. H. Briscoe2; 1School of Chemistry and Chemical Engineering, Shanghai Jiaotong University, Shanghai, CHINA, 2School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

10:30 368. Shape control of supraparticles: Anisometric particles from colloidal building blocks by simple evaporation. M. Gradzielski1, M. Sperling1, O. Velev2; 1Institut of Chemistry, Technische Universitaet Berlin, Berlin, GERMANY, 2Department of Chemical and Biomolecular Engineering, North Carolina State University (NCSU), Raleigh, NC.

10:50 369. Solution processing of ordered thin fi lm nanowire composites by magnetic fi eld alignment. J. P. Singer, C. I. Pelligra, S. Huang, C. O. Osuji; Department of Chemical and Environmental Engineering, Yale University, New Haven, CT.

11:10 370. pH-sensitive hierarchically structured honeycomb fi lms. P. MARCASUZAA1, M. SAVE1, P. GERARD2, L. BILLON1; 1Dpt Chemistry, IPREM UMR 5254 CNRS, PAU, FRANCE, 2ARKEMA, LACQ, FRANCE.

11:30 371. Formation of breath fi gure arrays in methanol vapor assisted by surface active agents. A. Zhang, L. Li; College of materials, Xiamen University, Xiamen, CHINA.

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11:50 372. Evaporation-meditated nanostructure formation via particle self-assembly in inkjet-printed drops. X. Yang1, C. Li2, Y. Sun1; 1Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA, 2Materials Science and Engineering, Drexel University, Philadelphia, PA.

Emulsions, Bubbles and Foams 4: Biomimetic and Biocompatible

Emulsions and FoamsTuesday, June 24, 2014, 9:50 AM - 12:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: J. Fattaccioli

9:50 373. Hemofoam: A polymer-based foam for treating no.n-compressible hemorrhage. J. C. White, M. B. Dowling, S. R. Raghavan; Chemical and Nuclear Engineering, University of Maryland College Park, College Park, MD.

10:10 374. Peritoneal Microbubble Oxygenation Prolongs Survival in a Lung Injury Model. M. A. Borden1, J. A. Feshitan1, N. Legband2, B. Terry2; 1Mechanical Engineering, University of Colorado, Boulder, CO, 2Mechanical and Materials Engineering, University of Nebraska, Lincoln, NE.

10:30 375. Generating emulsion-templated particles for lung cancer drug delivery. B. R. Benson1, N. M. Pinkerton1, B. K. Wilson1, D. Gao2, D. Adler2, H. A. Stone3, P. J. Sinko2, R. K. Prud’homme1; 1Chemical and Biological Engineering, Princeton University, Princeton, NJ, 2Department of Pharmacuetics, Rutgers University, Piscataway, NJ, 3Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ.

10:50 376. Keynote Lecture: Emulsions as biomimetic systems; the example of the COPI machinery on lipid droplets: interface remodeling, budding, energy, in vitro and in vivo applications. F. PINCET1,2, A. Thiam1,2, J. Rothman2, B. Antonny3; 1Laboratoire de Physique Statistique, Ecole Normale Superieure, Paris, FRANCE, 2Department of Cell Biology, Yale University, New Haven, CT, 3Institut de Pharmacologie Moléculaire et Cellulaire, Valbonne, FRANCE.

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11:30 377. Towards the compartmentalization of aqueous multiphase system for the construction of genetically encoded cellular mimics. P. Torre1,2, C. Keating1, S. Mansy3; 1Chemistry, Penn State University, State College, PA, 2University of Trento, Trento, ITALY, 3Chemistry, University of Trento, Trento, ITALY.

11:50 378. Ordering and clustering of particles at a lipid-coated droplet interface. J. Forth, P. Clegg; School of Physics and Astronomy, University of Edinburgh, Edinburgh, UNITED KINGDOM.

Environmental Science 4Tuesday, June 24, 2014, 9:50 AM - 12:10 PMHouston Golkin

Organizers: Daniel Strongin, Howard FairbrotherPresider: J. Fortner

9:50 379. Probing the interactions of graphene oxide nanomaterials with model cell membranes using QCM-D. X. Liu, K. Chen; Department of Geography and Environmental Engineering, Johns Hopkins University, Baltimore, MD.

10:10 380. The Interaction of Carbon-Based Nanomaterials with (model) Cell Membranes: Insights from Chemical Force Microscopy. S. Romero-Vargas Castrillón, F. Perreault, M. Elimelech; Chemical and Environmental Engineering, Yale University, New Haven, CT.

10:30 381. Surface functionalization of thin-fi lm composite polyamide membranes with antimicrobial graphene oxide nanosheets. F. Perreault, M. E. Tousley, A. F. de Faria, M. Elimelech; Chemical and Environmental Engineering, Yale University, New Haven, CT.

10:50 382. Long term fate of carbon nanotube-polymer nanocomposites in the presence of microorganisms. D. G. Goodwin, Jr.1, I. B. Sosa2, T. Devahif3, J. B. Payne4, R. S. Go4, D. H. Fairbrother1, E. J. Bouwer4; 1Chemistry, The Johns Hopkins University, Baltimore, MD, 2Chemistry, Instituto Venezolano de Investigaciones Cientifi cas (IVIC), Altos de Pipe, VENEZUELA, BOLIVARIAN REPUBLIC OF, 3Chemistry, University of Namur, Namur, BELGIUM, 4Geography and Environmental Engineering, The Johns Hopkins University, Baltimore, MD.

11:10 383. Interactions of nanotitania at bacterial surfaces under environmental conditions. K. A. Gray1, T. Tong1, C. Binh2, J. Kelly2, J. Gaillard1; 1Civil & Environmental Engineering, Northwestern University, Evanston, IL, 2Biology, Loyola University Chicago, Chicago, IL.

11:30 384. Effects of carbon nanomaterials on lung surfactant. R. P. Valle, T. Wu, Y. Y. Zuo; Mechanical Engineering, University of Hawaii, Honolulu, HI.

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11:50 385. Photodegradation of CNT-nanocomposites under simulated environmental conditions. R. Lankone1, J. Wang2, J. Ranville2, H. Fairbrother1; 1Chemistry, The Johns Hopkins University, Baltimore, MD, 2Chemistry and Geochemistry, Colorado School of Mines, Golden, CO.

General Papers 4: Particles and Aggregation

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: J. Conrad


10:10 387. A new technique for sizing particles using frustrated evanescent fi elds. C. G. Bolton, R. R. Dagastine; Department of Chemical & Biomolecular Engineering, University of Melbourne, Melbourne, AUSTRALIA.

10:30 388. Short-Range Ordering and Non-Ideal Diffusion Effects in Perikinetic Aggregation in Dispersions of Spherical Particles. A. V. Kelkar, E. I. Franses, D. S. Corti; School of Chemical Engineering, Purdue University, West Lafayette, IN.

10:50 389. Dispersion stability in high electrolyte systems. A. Vilinska, S. Ponnurangam, I. Chernyshova, J. Martinez, P. Somasundaran; Earth and Environmental Engineering, Columbia University, New York, NY.

11:10 390. Synthesis, Characterization, and Assembly of Lamellar-Packed Cobalt Oxide Nanorods. V. Doan-Nguyen1, T. Paik2, R. Agarwal3, C. B. Murray3; 1University of Pennsylvania, Philadelphia, PA, 2Chemistry, University of Pennsylvania, Philadelphia, PA, 3Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

11:30 391. A Predictive Model for the Thermal Conductivity of Clustered Nanocolloids. S. Lotfi zadeh, T. Matsoukas; Chemical Engineering, Pennsylvania State University, University park, PA.

11:50 392. Visible Mie scattering from hollow silica particles with particulate shells. L. A. Fielding, O. O. Mykhaylyk, P. W. Fowler, S. P. Armes; Department of Chemistry, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

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Glasses/Jamming 4: Foams, Emulsions, Colloids, etc.

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: G. Szamel

9:50 393. Keynote Lecture: Contact Changes and Rearrangements near the Jamming Point. M. van Hecke; Leiden University, Leiden, NETHERLANDS.

10:30 394. Diagnosing the hyperuniformity of two-dimensional jammed packings of spheres. R. Dreyfus1, Y. Xu1, T. Still2, L. Hough1, A. Yodh2, S. Torquato3; 1CNRS/Solvay/UPenn, Bristol, PA, 2University of Pennsylvania, Philadelphia, PA, 3University of Princeton, Princeton, NJ.

10:50 395. Stress correlations and elastic response of particle packings near jamming. K. Karimi, C. E. Maloney; Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA.

11:10 396. Phonons in quasi-two-dimensional soft colloidal glasses and crystals. T. Still1, K. Chen2, C. P. Goodrich1, S. Schoenholz1, A. C. Maggs3, A. J. Liu1, A. G. Yodh1; 1University of Pennsylvania, Philadelphia, PA, 2Chinese Academy of Sciences, Beijing, CHINA, 3ESPCI, Paris, FRANCE.

11:30 397. Glasslike Behavior of Concentrated Protein Solutions. P. Sarangapani1, S. Hudson2, D. Audus2, R. Jones2, J. Douglas2, J. A. Pathak1; 1MedImmune, Gaithersburg, MD, 2Materials Science and Engineering, National Institute of Standards and Technology, Gaithersburg, MD.

11:50 398. Simulations of Soft Glassy Matter with ripening. H. Hwang, R. A. Riggleman, J. C. Crocker; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Microfl uidics: Sorting, Self-Assembly and Transport

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMDRL A5

Organizers: Paulo Arratia, Kevin TurnerPresider: K. Turner

9:50 399. Keynote Lecture: Direct Separation and Analysis of Cells Mediated by Transient Molecular Interactions in Microfl uidic Devices. R. Karnik; MIT, Cambridge, MA.

10:30 400. Tuning the velocity profi le in hydrodynamically confi ned microfl ows using non-uniform electric fi elds. C. Park, K. T. Turner; Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:50 401. Microfl uidic self-assembly of colloidal molecules: from drug delivery to nanomotors. Z. Nie, J. He, Y. Liu, L. Wang, J. Fourkas; Chemistry and Biochemistry, University of Maryland, College Park, MD.

11:10 402. Ratcheted electrophoresis for rapid particle transport. A. M. Drews, H. Lee, K. J. Bishop; Chemical Engineering, Pennsylvania State University, State College, PA.

11:30 403. Self-assembly driven by hydrodynamic dipolar interactions. b. shen, Jr, j. Ricouvier, Jr, m. reyssat, p. J. tabeling, Sr.; ESPCI, paris, FRANCE.

11:50 404. Hybrid soft-lithography/laser machined microchips for the parallel generation of droplets. M. M. Woldemariam, D. Issadore; University of Pennsylvania, Philadelphia, PA.

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Molecular Self-Assembly 4Tuesday, June 24, 2014, 9:50 AM - 12:10 PMCohen Terrace

Organizers: Dan Hammer, Darrin PochanPresider: D. Hammer

9:50 405. Effects of nucleic acid additions on plasmonic signatures of gold nanoparticles. R. Sullivan, III1, M. N. Tapp1, P. Dennis2, R. Naik2, V. Milam1,3,4; 1School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta, GA, 2Materials & Manufacturing Directorate, Air Force Research Laboratory, Wright Patterson AFB, OH, 3Wallace C. Coulter Department of Biomedical Engineering, Georgia Institute of Technology, Atlanta, GA, 4Petit Institute for Bioengineering and Bioscience, Georgia Institute of Technology, Atlanta, GA.

10:10 406. A coarse-grained model for DNA-mediated particle assembly. Y. Ding, J. Mittal; chemical engineering, Lehigh University, Bethlehem, PA.

10:30 407. Keynote Lecture: Self-Assembly Nanoparticle Structures in Polymer Nanocomposites. S. Kumar; Columbia University, New York, NY.

11:10 408. Adsorption of surfactants onto single-walled carbon nanotubes. E. Kastrisianaki-Guyton1, J. van Duijneveldt1, T. Cosgrove1, L. Chen2; 1Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2Chilworth Technical Centre, Merck Chemicals Ltd., Southampton, UNITED KINGDOM.

11:30 409. Molecular layers on Ag nanoparticles characterized by second harmonic light scattering. G. Gonella1, B. Xu1, B. G. DeLacy2, H. Dai1; 1Temple University, Philadelphia, PA, 2Research & Technology Directorate, U.S. Army Edgewood Chemical Biological Center, Aberdeen Proving Ground, MD.

11:50 410. Nanostructures in Catalysis and Electrochemical sensing: An overview. S. K. Mehta; Chemistry, Panjab University, Chandigarh, INDIA.


Tuesday, June 24, 2014, 9:50 AM - 12:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: M. Gharbi

9:50 411. Colloidal transport and periodic stick-slip motion in cholesteric fi nger textures. K. Chen, L. Metcalf, D. Reich, R. Leheny; Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD.

10:10 412. Colloidal assembly in liquid crystals tuned by soft porous membranes. F. Serra1, Y. Xia2, Y. Luo3, M. A. Gharbi1, R. Kamien1, S. Yang2, K. J. Stebe3; 1School of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2LRSM, University of Pennsylvania, Philadelphia, PA, 3School of engineering and applied science, University of Pennsylvania, Philadelphia, PA.

10:30 413. Control of bulk defects of nematic liquid crystals in micro-post arrays. Y. Xia, M. Gharbi, R. Kamien, K. Stebe, S. Yang; Upenn, philadelphia, PA.

10:50 414. Liquid crystal-enabled colloidal electrokinetics. O. D. Lavrentovich; Liquid Crystal Institute, Kent State University, Kent, OH.

11:10 415. Keynote Lecture: Self-assembly of nanoparticles via liquid crystal phase transitions. L. Reven1,2, J. Milette1, E. Soulé3, S. Relaix4, S. Manet4, R. Lennox1, A. Rey5, M. Sutton4, P. Oswald6; 1Department of Chemistry, McGill University, Montreal, QC, CANADA, 2Centre for Self-Assembled Chemical Structures, Montreal, QC, CANADA, 3INTEMA, Institute of Materials Science, Universidad de Mar del Plata, Mar del Plata, ARGENTINA, 4Department of Physics, McGill University, Montreal, QC, CANADA, 5Department of Chemical Engineering, McGill University, Montreal, QC, CANADA, 6Laboratoire de Physique, École Normale Supérieure de Lyon, Lyon, FRANCE.

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11:50 416. Flower textures of smectic focal conic domains: Friedel’s laws in reverse. D. A. Beller, M. A. Gharbi, A. Honglawan, S. Yang, K. J. Stebe, R. D. Kamien; University of Pennsylvania, Philadelphia, PA.


Tuesday, June 24, 2014, 9:50 AM - 12:10 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: D. Lee

9:50 417. Gelation of patchy rods. N. Kazem, C. E. Maloney; Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA.

10:10 418. Crystal growth on colloidal particles: General rules for patchy particle synthesis. H. Bao1, F. Sadafi 1, T. Meincke1, T. Bihr2, A. Smith2, R. Klupp Taylor1; 1Institute of Particle Technology, Friedrich-Alexander-University of Erlangen-Nuremberg, Erlangen, GERMANY, 2Institute of Theoretical Physics, Friedrich-Alexander-University of Erlangen-Nuremberg, Erlangen, GERMANY.

10:30 419. Keynote Lecture: Patchy Colloids. D. J. Pine; Chemical & Biomolecular Engineering, New York University, Brooklyn, NY.

11:10 420. Preparation, functionalization and self-assembly of Janus dumbbell nanoparticles. F. Guignard, M. Lattuada; Adorlphe Merkele Institute, University of Fribourg, Marly, SWITZERLAND.

11:30 421. Synthesis and self-assembly of patchy colloids: Experiments and Simulation. E. Mani, S. Manigandan; Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

132 133

Rheology and Dynamics 4Tuesday, June 24, 2014, 9:50 AM - 12:10 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: E. Del Gado

9:50 422. Keynote Lecture: Interfacial rheology : mission impossible?. J. Vermant; Chemical Engineering, KU Leuven, University of Leuven, B-3001, BELGIUM.

10:30 423. Colloidal monolayers under steady shear at the liquid-liquid interface. I. Buttinoni1, Z. A. Zell2, T. M. Squires2, L. Isa1; 1Department of Materials, ETH Zürich, Zürich, SWITZERLAND, 2Department of Chemical Engineering, UCSB, Santa Barbara, CA.

10:50 424. Impact of dispersed nanoparticles on the mechanics and phase transitions of block copolymer soft solids. M. Dao, M. Domach, L. Walker; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

11:10 425. Effect of smooth and rough boundaries on suspension microstructure. T. Perera, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, PA.

11:30 426. Dynamics of a thermo-responsive microgel colloid near to the glass transition. X. Di1,2, X. Peng2, G. B. McKenna2; 1Chemical & Environmental Engineering, Yale University, New Haven, CT, 2Chemical Engineering, Texas Tech University, Lubbock, TX.

11:50 427. Dynamics of Cubic Colloids. J. R. Royer1, G. L. Burton1, D. L. Blair2, S. D. Hudson1; 1Materials Science and Engineering Division, National Institute of Standards and Technology, Gaithersburg, MD, 2Department of Physics, Institute for Soft Matter Synthesis and Metrology, Georgetown University, Washington, DC.

Wetting and Adhesion 4: Interfacial Tension, Adhesion and Friction

Tuesday, June 24, 2014, 9:50 AM - 12:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: R. Style

9:50 428. Measuring solid surface tension using a suspended thin fi lm: theory and experiment. A. Jagota1, C. Hui2, N. Nadermann1, D. Paretkar1, X. Xu2; 1Lehigh University, Bethlehem, PA, 2Cornell University, Ithaca, NY.

10:10 429. Competition of interfacial and gravitational energies in determining the confi guration of a compound sessile drop. Y. Zhang1, S. L. Anna2, D. Chatain3, S. Garoff1; 1Physics, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engineering and Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA, 3CNRS, CINaM UMR 7325, Aix Marseille Universite, Marseille, FRANCE.

10:30 430. Contact mechanics on compliant, adhesive substrates. K. E. Jensen1, R. W. Style1, R. Sarfati2, E. R. Dufresne1; 1Mechanical Engineering and Materials Science, Yale University, New Haven, CT, 2Applied Physics, Yale University, New Haven, CT.

10:50 431. To catch a fl y: Viscosity and elasticity-based prey capture by frog tongue projection. A. Noel, H. Choe, J. Ha, A. Fernandez-Nieves, J. Streator, D. L. Hu; Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA.

11:10 432. Adhesion, friction and bonding in fi ber-fi ber joints. A. Swerin, B. D. Brandner; Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, SWEDEN.

11:30 433. Measuring adhesion forces in powder collectives by inertial detachment. S. Wanka1, M. Kappl1, M. Wolkenhauer2, H. Butt1; 1Physics at Interfaces, Max Planck Institute for Polymer Research, Mainz, GERMANY, 2Boehringer Ingelheim Pharma GmbH & Co. KG, Ingelheim, GERMANY.

134 135

11:50 434. Experimental measurement of forces and energies associated with capillary rise in a vertical tube. C. W. Extrand, S. I. Moon; Entegris, Chaska, MN.

Active Colloids 5: New MechanismsTuesday, June 24, 2014, 1:30 PM - 3:10 PMDRL A6

Organizers: Zvonimir Dogic, Christina MarchettiPresider: G. Redner

1:30 435. Tuning the Swimming Mechanisms of Colloidal Particles: Bubble Propulsion vs. Self-diffusiophoresis. S. Wang, N. Wu; Chemical and biological engineering, Colorado School of Mines, Golden, CO.

1:50 436. Self-propelled movement of particle asymmetrically functionalized with peroxidase. S. Park1, W. Jang1, A. Kumar1, D. Lee1, D. A. Hammer1,2; 1chemical & biomolecular engineering, University of Pennsylvania, philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

2:10 437. Colloidal dancers: Designing networks of DNA-functionalized colloids for non-random walks. E. W. Gehrels, W. B. Rogers, Z. Zeravcic, V. N. Manoharan; Harvard University, Cambrige, MA.

2:30 438. Transport applications of catalytic Janus sphere swimming devices: Developing an autonomous guidance strategy. A. I. Campbell, S. J. Ebbens; Chemical and Biological Engineering, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

2:50 439. Light-activated fl uidic valve by triggering the ionic gelation of a biopolymer. H. Oh, A. Lu, V. Javvaji, R. Hashemipour, S. R. Raghavan; Chemical and Biomolecular Engineering, University of maryland, College Park, MD.

136 137

Biocolloids 5: Contrast AgentsTuesday, June 24, 2014, 1:30 PM - 3:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: I. Szleifer

1:30 440. Harvesting the collective properties of nanoparticle ensembles for cancer imaging and treatment. Z. Nie1, J. Lin1, P. Huang2, S. Chen2; 1Chemistry and Biochemistry, University of Maryland, College Park, MD, 2NIH, NIBIB, Bethesda, MD.

1:50 441. Incorporation of Periodically Sequenced “Surftides” into Lipid-Based Microbubbles. J. V. Badami, R. Tu; Chemical Engineering, The City College of New York, New York, NY.

2:10 442. Dextran coated bismuth-iron oxide nanoparticle as a novel contrast agent for both computed tomography and magnetic resonance imaging. P. C. Naha1, A. A. Zaki2, E. Hecht1, M. Chorny3, P. Chhour2, W. Witschey1, H. I. Litt1, A. Tsourkas2, D. P. Cormode1; 1Radiology, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA, 3The Children’s Hospital of Philadelphia, Philadelphia, PA.

2:30 443. Particles for photoacoustic imaging-- a new bioimaging modality. R. K. Prud’homme, V. Pansare; Chem and Biol Engr, Princeton University, Princeton, NJ.

Biointerfaces 5: Mechanics IITuesday, June 24, 2014, 1:30 PM - 3:10 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: P. Purohit

1:30 444. Substrate stiffness enhances stem cell differentiation through nuclear remodeling. J. Swift, I. L. Ivanovska, A. Buxboim, T. Harada, D. P. Dingal, K. R. Spinler, J. Shin, M. Tewari, D. E. Discher; Bioengineering, University of Pennsylvania, Philadelphia, PA.

1:50 445. Mechanics of biofi lms at oil-water interfaces. L. Vaccari1, D. B. Allan2, J. Sheng3, M. D. Goulian1, R. L. Leheny2, K. J. Stebe1; 1University of Pennsylvania, Philadelphia, PA, 2Johns Hopkins University, Baltimore, MD, 3Texas Tech University, Lubbock, TX.

2:10 446. ‘Scar in a dish’: A platform for screening stem cell-derived mechanical response. P. P. Dingal, M. Raab, D. E. Discher; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

2:30 447. Membrane curvature instability mediated by protein density, tension, and lipid spontaneous curvature. Z. Shi, T. Baumgart; Chemistry, University of Pennsylvania, Philadelphia, PA.

2:50 448. Modeling the ligand-receptor mediated adhesion of functionalized nanocarriers to live cells. N. Ramakrishnan1, H. Y. Yu1, D. M. Eckmann2, P. S. Ayyaswamy3, R. Radhakrishnan1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, 3Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

138 139

Colloidal and Surface Forces 5: Electrostatics

Tuesday, June 24, 2014, 1:30 PM - 3:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: H. M. Wyss

1:30 449. Surface forces with patterned charge heterogeneities. C. M. Pick1, G. Drazer2, J. Frechette1; 1Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD, 2Mechanical and Aerospace Engineering, Rutgers University, Piscataway, NJ.

1:50 450. Effect of Charge Inhomogeneity on Colloid Aggregation. Y. CHO1, S. A. Safran2, M. In3, P. A. Pincus4; 1Asia Pacifi c Center for Theoretical Physics, Pohang, KOREA, REPUBLIC OF, 2Weizmann Institute, Rehovot, ISRAEL, 3CNRS-Universite Montpellier 2, Montpellier, FRANCE, 4University of California, Santa Barbara, Santa Barbara, CA.

2:10 451. Interactions forces and charging behavior of deformable oil drops coated with mixture of ionic and non-ionic surfactants. S. Mettu, I. Hadiputra, R. Dagastine; PFPC and the Dept of Chemical and Biomolecular Eng, University of Melbourne, Parkville, AUSTRALIA.

2:30 452. Poisson-Boltzmann Predictions of Forces between Charged Colloidal Particles in Solutions Containing Multivalent Ions. G. Trefalt, F. J. Montes Ruiz-Cabello, P. Maroni, M. Borkovec; Department of Inorganic and Analytical Chemistry, University of Geneva, Geneva, SWITZERLAND.

2:50 453. Predicting the equation of state of salty concentrated colloidal dispersions: Assessing the intrinsic error of the cell model. Y. HALLEZ, J. DIATTA, M. MEIRELES; University of Toulouse - LGC, Toulouse, FRANCE.

Directed Assembly 5: Co-AssemblyTuesday, June 24, 2014, 1:30 PM - 3:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: A. Fafarman

1:30 454. Liquid crystalline self-assembly of lanthanide-based anisotropic nanocrystals. T. Paik1, D. Ko2, T. R. Gordon1, C. B. Murray1,2; 1Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 2Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

1:50 455. Controlling the location of nanoparticles in colloidal assemblies of amphiphilic polymers by tuning nanoparticles surface chemistry. Q. Luo; Chemistry, University of Pennsylvania, Philadelphia, PA.

2:10 456. Concurrent self-assembly of molecular and nanoparticle amphiphiles into hybrid vesicular assemblies with controlled pattern. Y. Liu1, Y. Li2, J. He1, K. Duelge1, Z. Lu2, Z. Nie1; 1Chemistry and Biochemistry, University of Maryland College Park, College Park, MD, 2State Key Laboratory of Theoretical and Computational Chemistry, Institute of Theoretical Chemistry, Changchun, CHINA.

2:30 457. Keynote Lecture: Muti-component nanocrystal self assembly as a route to mutifunctional materials and devices. C. B. Murray; University of Pennsylvania, Philadelphia, PA.

140 141

Electrokinetics: Drops and ParticlesTuesday, June 24, 2014, 1:30 PM - 3:10 PMDRL A5

Organizers: Darrell Velegol, Aditya KhairPresider: D. Velegol

1:30 458. On the diffusioelectrophoretic motion of oil droplets in water in microfl uidics. E. Knapp, C. Maldarelli; Chemical Engineering and The Benjamin Levich Institute for Physico-Chemical Hydrodynamics, The City College of New York, New York, NY.

1:50 459. A continuum approach to electrophoretic mobility reversals. R. F. Stout, A. S. Khair; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:10 460. Characterizing colloidal electrical properties for microfl uidic reconfi gurable antennas. B. Rupp, M. Bevan; Johns Hopkins University, Baltimore, MD.

2:30 461. Keynote Lecture: Theory and applications of bacterial polarization. C. R. Buie; Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA.

Emulsions, Bubbles and Foams 5: Control of Surface Active Species

at InterfacesTuesday, June 24, 2014, 1:30 PM - 3:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: A. Kotula

1:30 462. Ultrasound based drug delivery and colloidal science of contrast agents. N. Wallace; Chemical and Biological Engineering, Drexel University, Philadelphia, PA.

1:50 463. Sequential adsorption behavior of a model dispersant-biosurfactant system at an oil/aqueous interface. S. M. Kirby1, S. L. Anna1,2, L. M. Walker1; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:10 464. Polymer-grafted lignin: Aqueous dispersants from a renewable resource. N. Washburn1, C. Gupta2; 1Chemistry, Carnegie Mellon University, Pittsburgh, PA, 2Materials Science & Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:30 465. Effects of fatty Acids on polyelectrolyte-surfactant interaction. J. Martinez Santiago, P. Somasundaran; Columbia University, New York, NY.

2:50 466. Amphiphilic particles with anisotropic shape as colloidal surfactants by microfl uidic-based electrospray. T. Kong1,2, Z. Liu1,2, T. Xu1, H. Shum1,2; 1the University of Hong Kong, Hong Kong, HONG KONG, 2the University of Hong Kong-Shenzhen Institute of Research and Innovation (HKU-SIRI), Shenzhen, CHINA.

142 143

Environmental Science 5Tuesday, June 24, 2014, 1:30 PM - 3:10 PMHouston Golkin

Organizers: Daniel Strongin, Howard FairbrotherPresider: D. Strongin

1:30 467. Density functional theory calculations on a ferrihydrite nanoparticle. J. D. Kubicki; Dept. of Geosciences, The Pennsylvania State University, University Park, PA.

1:50 468. Surface thermodynamics and kinetics of MgO(100) terrace site hydroxylation. J. T. Newberg; Chemistry & Biochemistry, University of Delaware, Newark, DE.

2:10 469. Interactions of CH4 and CO2 with montmorillonite surfaces: Theoretical electronic structure calculations. M. D. Kilmer1, L. Tribe2; 1College of Earth and Mineral Sciences, The Pennsylvania State University, State College, PA, 2Division of Science, The Pennsylvania State University - Berks Campus, Reading, PA.

2:30 470. Keynote Lecture: Solvation at the liquid/vapor interface of aqueous solutions: Implications for interface composition and chemistry. J. C. Hemminger; Department of Chemistry, University of California, Irvine, Irvine, CA.

General Papers 5: Particles at Interfaces

Tuesday, June 24, 2014, 1:30 PM - 3:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: J. Frechette

1:30 471. Pickering-emulsion-templated encapsulation of a hydrophilic amine and its enhanced stability in epoxy resin. A. D. Hughes1, J. Li2, J. S. Moore2, I. Drake1, T. Kalantar3, C. Tucker3; 1The Dow Chemical Company, Spring House, PA, 2The University of Illinois - Urbana-Champaign, Urbana, IL, 3The Dow Chemical Company, Midland, MI.

1:50 472. Interfacial behavior of asphaltenes at high temperature. M. Ghosh1, K. Karinshak2, J. Guo2, J. Harwell2, B. Grady2; 1Phillips 66 Company, Bartlesville, OK, 2School of Chemical, Biological, and Materials Engineering, University of Oklahoma, Norman, OK.

2:10 473. Invited Lecture: Ultrasound-activated particle desorption from fl uid-fl uid interfaces: Desorption on demand. V. Garbin; Chemical Engineering, Imperial College London, London, UNITED KINGDOM.

2:30 474. Invited Lecture: Particles in liquid interfaces and the stabilization of colloidal multi-phase systems. Y. Zhang, J. Wu, H. Wang, J. C. Meredith, S. H. Behrens; School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA.

2:50 475. From suspension to emulsion polymers: Challenges in industrial research. G. Cardoen; The Dow Chemical Company, Spring House, PA.

144 145

Glasses/Jamming 5: Theories and Models

Tuesday, June 24, 2014, 1:30 PM - 3:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: E. Del Gado

1:30 476. Free energy landscapes and rearrangements in a 3-disk model. E. R. Weeks1, X. Du1, G. L. Hunter2; 1Physics, Emory University, Atlanta, GA, 2Physics, New York University, New York, NY.

1:50 477. Kinks in topological soft matter. B. G. Chen, N. Upadhyaya, V. Vitelli; Leiden University, Leiden, NETHERLANDS.

2:10 478. Invited Lecture: Mean-fi eld perspective on the glass and the jamming transitions in hard spheres. P. Charbonneau1, Y. Jin2, J. Kurchan3, G. Parisi2, P. Urbani4, F. Zamponi3; 1Duke University, Durham, NC, 2Sapienza Universita di Roma, Rome, ITALY, 3Ecole Normale Superieure, Paris, FRANCE, 4Universite Paris-Sud 11, Paris, FRANCE.

2:50 479. A unifying approach for the mechanical response of glasses and jammed packings. A. Zaccone, E. Terentjev; Cavendish Laboratory, University of Cambridge, Cambridge, UNITED KINGDOM.

Molecular Self-Assembly 5Tuesday, June 24, 2014,1:30 PM - 3:10 PMCohen Terrace


1:30 480. Tunable Composite Nanocarriers for Magnetic Resonance Imaging, Multi-Modal Imaging and Theranostic Application. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

1:50 481. Water sensitive molecular self-assembly of organogelators in oil: A bioinspired strategy for sealing oil leaks. H. Oh, N. Yaraghi, S. R. Raghavan; Chemical and Biomolecular Engineering, University of maryland, College Park, MD.

2:10 482. Ionotropic gelation of common synthetic polyelectrolytes as a facile route to underwater adhesion and long-term controlled release. P. G. Lawrence, Y. Huang, Y. Lapitsky; Chemical and Environmental Engineering, University of Toledo, Toledo, OH.

2:30 483. Mechanical Properties of Two-Dimensional Alkanethiol-Coated Gold Nanoparticle Membranes. K. Salerno1, D. S. Bolintineanu1, M. D. Lane2, G. S. Grest1; 1Center for Integrated Nanotechnologies, Sandia National Laboratories, Albuquerque, NM, 2Sandia National Laboratories, Albuquerque, NM.

2:50 484. Bottom-up Construction of Surface Nano-Materials toward Functional Molecular Devices. Z. Li1, T. Wandlowski2, E. Borguet1; 1Temple University, Philadelphia, PA, 2The Department of Chemistry, University of Bern, Bern, SWITZERLAND.

146 147


Tuesday, June 24, 2014, 1:30 PM - 3:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: D. Beller

1:30 485. Elasticity modifi ed capillary attraction of particles on the surface of an ultra-soft gel. A. Chakrabarti, M. K. Chaudhury; Chemical Engineering, Lehigh University, Bethlehem, PA.

1:50 486. A numerical study of stretching of a capillary bridge featuring a particle-laden interface. L. Botto; School of Engineering and Materials Science, QML, Queen Mary University of London, London, UNITED KINGDOM.

2:10 487. The dynamics of sub-micron amphiphilic dumbbells at fl uid interfaces. N. Samudrala1, L. Isa2, E. R. Dufresne1; 1Yale University, New Haven, CT, 2ETH Zürich, Zürich, SWITZERLAND.

2:30 488. Capillary Attraction and Hydrodynamic Resistance Between Two Floating Spheres At A Viscous Oil-Water Interface. A. Dani1, G. Keiser2, M. Yeganeh2, C. Maldarelli1; 1Chemical Engineering, Benjamin Levich Institute, City College of the City University of New York, New York, NY, 2ExxonMobil Research and Engineering Company, Annandale, NJ.

2:50 489. Compression and arrangement of microgels at oil-water interfaces. K. Geisel1, L. Isa2, W. Richtering1; 1Institute of Physical Chemistry, RWTH Aachen University, Aachen, GERMANY, 2Department of Materials, ETH Zürich, Zürich, SWITZERLAND.

Patchy and Janus Particles 5: Patchy and Janus Particles as Solid Surfactants

Tuesday, June 24, 2014, 1:30 PM - 3:10 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: S. Shojaei-Zadeh

1:30 490. Protein-based organic-inorganic heterogeneous particles as a versatile platform for Pickering foam and emulsion stabilization. E. Blanco1, S. Smoukov1, O. D. Velev1, K. P. Velikov2,3; 1Department of Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Unilever R&D Vlaardingen, Vlaardingen, NETHERLANDS, 3Soft Condensed Matter, Debye Institute for Nanomaterials Science, Utrecht University, Utrecht, NETHERLANDS.

1:50 491. Emulsion stabilization using amphiphilic dumbbells - Experimental and theoretical approaches. F. Tu, D. Lee; chemical and biomolecular engineering, univerisity of pennsylvania, philadelphia, PA.

2:10 492. Understanding Pickering Emulsions using Multi-Scale Simulations. A. Striolo; Chemical Engineering Department, University College London, London, UNITED KINGDOM.

2:30 493. Dumbbell Particles as a New Type of Colloidal Emulsifi er for Phase Transfer Delivery. S. Wang, N. Wu; Chemical and biological engineering, Colorado School of Mines, Golden, CO.

2:50 494. Rotational dynamics and diffusion of Janus nanoparticles at liquid interfaces. H. Rezvantalab, G. Drazer, S. Shojaei-Zadeh; Mechanical and Aerospace Engineering, Rutgers, The State University of New Jersey, Piscataway, NJ.

148 149

Rheology and Dynamics 5Tuesday, June 24, 2014, 1:30 PM - 3:10 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: M. Helgeson

1:30 495. From self-assembly to rheology in colloidal suspensions: a bottom-up approach. A. Zaccone1, H. H. Winter2, M. Ballauff3; 1Cavendish Laboratory, University of Cambridge, Cambridge, UNITED KINGDOM, 2Chemical Engineering, University of Massachusetts Amherst, Amherst, MA, 3Soft Matter and Functional Materials, Helmholtz-Zentrum Berlin, Berlin, GERMANY.

1:50 496. Achieving a ‘fl atter’ fi lm profi le for applications in P-OLED displays: A numerical and experimental investigation of mixed solvent inks and their infl uence on fi lm shape. A. D. Eales1, N. Dartnell2, A. F. Routh1; 1Chemical Engineering, University of Cambridge, Cambridge, UNITED KINGDOM, 2Cambridge Display Technology Ltd. (Company number 02672530), Godmanchester, UNITED KINGDOM.


2:30 498. Scenarios of the dynamics of pore clogging by soft colloids. P. BACCHIN1, G. Agbangla1, E. Climent2; 1Laboratoire de Génie Chimique, Université Paul Sabatier, Toulouse, FRANCE, 2Institut de Mécanique des Fluides, Institut National Polytechnique de Toulouse, Toulouse, FRANCE.

2:50 499. Predicting the hydrodynamic properties of superballs. D. J. Audus, A. M. Hassan, J. R. Royer, E. J. Garboczi, S. D. Hudson, J. F. Douglas; NIST, Gaithersburg, MD.

Wetting and Adhesion 5: Capillary Wetting and Adhesion

Tuesday, June 24, 2014, 1:30 PM - 3:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: A. Jagota

1:30 500. Keynote Lecture: Solid drops: Capillary deformations of immersed elastic rods. S. Mora1, C. Maurini2, B. Audoly2, Y. Pomeau3; 1Université de Montpellier 2, Montpellier, FRANCE, 2Université Paris 6, Paris, FRANCE, 3Department of Mathematics, University of Arizona, Tucson, AZ.

2:10 501. Understanding tree frog adhesion by peeling structured surfaces in fl uid environments. C. Dhong, J. Frechette; Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

2:30 502. Capillary adhesion at the nanometer scale. S. Cheng1, M. O. Robbins2; 1Physics, Virginia Tech, Blacksburg, VA, 2Physics and Astronomy, Johns Hopkins University, Baltimore, MD.

2:50 503. Roles of the Elasto-Capillary Instability in the Adhesion of Soft Gels. A. Chakrabarti, M. K. Chaudhury; Chemical Engineering, Lehigh University, Bethlehem, PA.

150 151

Active Colloids 6: External FieldsTuesday, June 24, 2014, 3:40 PM - 5:20 PMDRL A6

Organizers: Zvonimir Dogic, Christina MarchettiPresider: D. Chen

3:40 504. Fluid-Induced Propulsion of Rigid Particles in Complex Fluids. D. A. Gagnon, N. C. Keim, P. E. Arratia; Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

4:00 505. Dynamics of a self-propelled magnetic colloidal particle. U. M. Cordova-Figueroa, G. C. Vidal; Department of Chemical Engineering, University of Puerto Rico - Mayaguez, Mayaguez, PR.


4:40 507. Structure and dynamics of self-assembling colloidal monolayers in oscillating magnetic fi elds. A. E. Koser, P. E. Arratia; Mechanical Engineering, University of Pennsylvania, Philadelphia, PA.

5:00 508. Photochromic behavior in Bi(CTAB)2-PVP colloidal systym. C. Lu, S. Wong, C. Goh; Chemistry, University of Toronto, Toronto, ON, CANADA.

Biocolloids 6: Mostly Contrast AgentsTuesday, June 24, 2014, 3:40 PM - 5:20 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: O. D. Velev

3:40 509. Labeling monocytes with gold nanoparticles to track their recruitment to infarcted myocardium. P. Chhour1, P. C. Naha2, M. P. Reilly3, V. A. Ferrari3, D. P. Cormode2; 1Bioengineering, University of Pennsylvania, Philadelphia, PA, 2Radiology, University of Pennsylvania, Philadelphia, PA, 3Cardiology, University of Pennsylvania, Philadelphia, PA.

4:00 510. Clustering of cyclodextrin functionalized microbeads visualized in real time. C. Arya, C. Saez, H. Huang, S. R. Raghavan; University of Maryland, College Park, MD.

4:20 511. Ultra high payload bismuth nanoparticles as a novel computed tomography contrast agent. P. C. Naha1, A. L. Brown2, H. I. Litt1, A. M. Goforth2, D. P. Cormode1; 1Radiology, University of Pennsylvania, Philadelphia, PA, 2Chemistry, Portland State University, Portland, OR.

4:40 512. Polyphosphazene nanospheres with gold nanoparticle cores as biodegradable contrast agents for computed tomography. R. Cheheltani1, P. Chhour1, M. Akhter1, R. M. Ezzibdeh1, P. C. Naha1, V. A. Ferrari1, H. Allcock2, D. P. Cormode1; 1University of Pennsylvania, Philadelphia, PA, 2Pennsylvania State University, State College, PA.

5:00 513. Iodinated nanoparticles for PET imaging and targeting. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

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Biointerfaces 6: Interfacial Binding Phenomena

Tuesday, June 24, 2014, 3:40 PM - 5:20 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: T. Baumgart

3:40 514. Association of model neurotransmitters with lipid bilayer membranes. B. Josey1, F. Heinrich1,2, M. Lösche1,2,3, R. S. Cantor4; 1Department of Physics, Carnegie Mellon University, Pittsburgh, PA, 2Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD, 3Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA, 4Department of Chemistry, Dartmouth College, Hanover, NH.

4:00 515. Induction of a lipid phase change in the host cell membrane by the RTX toxins: More than pore formation. A. C. Brown1, K. Boesze-Battaglia2, E. T. Lally2; 1Chemical Engineering, Lehigh University, Bethlehem, PA, 2University of Pennsylvania, Philadelphia, PA.

4:20 516. Keynote Lecture: A MOLECULAR MECHANISM FOR DIFFERENTIAL RECOGNITION OF MEMBRANE PHOSPHATIDYLSERINE BY THE IMMUNE REGULATORY RECEPTOR TIM4. K. Y. Lee; Department of Chemistry, University of Chicago, Chicago, IL.

5:00 517. Physical chemistry and biophysics of fat digestion. N. D. Denkov1, Z. Vinarov1, S. Tcholakova1, S. Stoyanov2; 1Department of Chemical Engineering, Sofi a University, Sofi a, BULGARIA, 2Laboratory of Physical Chemistry and Colloid Science, Wageningen University, Wageningen, NETHERLANDS.

Colloidal and Surface Forces 6: Nanoparticles

Tuesday, June 24, 2014, 3:40 PM - 5:20 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: B. Madivala Gurappa

3:40 518. Lessons in lyophilization and redispersion of nanoparticles. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

4:00 519. Surface forces between adsorbed polymer brush nanoparticles. J. K. Riley1, K. Matyjaszewski2, R. D. Tilton3; 1Department of Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Department of Chemistry, Carnegie Mellon University, Pittsburgh, PA, 3Department of Chemical and Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

4:20 520. A Straightforward, One-Step Synthesis of Single Ligand Alkanethiol Capped Silver Nanoparticles from an Aggregative Model of Growth. Z. Farrell, C. Shelton, C. Dunn, A. Jo, D. Green; Chemical Engineering, University of Virginia, Charlottesville, VA.

4:40 521. Effect of sodium chloride and sodium dodecyl sulfate on the stability of TiO2 particles in water against aggregation and sedimentation. Y. YANG1, X. Zhu1, G. Bai1, A. Kelkar1, H. Ng2, E. Franses1, D. Corti1; 1Chemical Engineering, Purdue University, west lafayette, IN, 2Printing and Content Delievery Lab, HP Labs, Hewlett-Packard Co., Palo Alto, CA.

5:00 522. Aqueous two-phase separation of single-wall carbon nanotubes. J. Fagan; Materials Science and Engineering Division, National Institute of Standards and Technology, Gaithersburg, MD.

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Directed Assembly 6: Field-Assisted Assembly I

Tuesday, June 24, 2014, 3:40 PM - 5:20 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: M. Cargnello

3:40 523. Diffusionless Transformations in 2-D Colloidal Alloys Formed by Magnetic Assembly. Y. Yang1,2, C. Marcoux3,2, L. Fu4,2, J. Socolar3,2, P. Charbonneau4,2, G. Lopez5,2,1, B. Yellen1,2,6; 1Department of Mechanical Engineering and Materials Science, Duke University, Durham, NC, 2NSF Research Triangle MRSEC, Durham, NC, 3Department of Physics, Duke University, Durham, NC, 4Department of Chemistry, Duke University, Durham, NC, 5Department of Biomedical Engineering, Duke University, Durham, NC, 6UM-SJTU Joint Institute, Shanghai, CHINA.

4:00 524. Colloidal assembly directed by virtual magnetic moulds. A. F. Demirörs1, B. Grzybowski2; 1Dept. Materials, ETH Zurich, Zurich, SWITZERLAND, 2Dept. Chemistry, Northwestern University, Evanston, IL.

4:20 525. Rayleigh-Plateau instability in toggled fi elds. J. L. Bauer, E. M. Furst; Chemical and Biomolecular Engineering, University of Delaware, Newark, DE.

4:40 526 Directed assembly of microactuators: Field-controlled folding and bending of chains of patchy microcubes. C. W. Shields, IV1,2, K. Han3, B. Bharti2,3, O. D. Velev2,3, G. P. Lopez1,2,4; 1Biomedical Engineering, Duke University, Durham, NC, 2NSF Research Triangle Materials Research Science and Engineering Center, Durham, NC, 3Chemical and Biomolecular Engineering, NC State University, Raleigh, NC, 4Mechanical Engineering and Materials Science, Duke University, Durham, NC.

5:00 527. Aligned nanoporous polymers by magnetic fi eld directed self-assembly of a polymerizable lyotropic template. M. E. Tousley, X. Feng, M. Elimelech, C. O. Osuji; Chemical and Environmental Engineering, Yale University, New Haven, CT.

Electrokinetics: GeneralTuesday, June 24, 2014, 3:40 PM - 5:20 PMDRL A5

Organizers: Darrell Velegol, Aditya KhairPresider: A. Khair

3:40 528. Separation of Enzymes using Chemotaxis in a Microfl uidic Channel. S. Das, K. K. Dey, M. Poyton, S. Sengupta, A. Sen, P. Cremer; Department of Chemistry, Penn State University, State College, PA.

4:00 529. Infl uence of particle/solid surface zeta potential on particle adsorption kinetics. K. V. Savaji, A. Couzis; Chemical Engineering, City College of New York, New York, NY.

4:20 530. Selective electrosorption of metal ions via tuning surface properties of titanium dioxide nanotubes. P. Taboada-Serrano, C. Richter, T. Close, S. Pedu, S. Pustulka; Chemical and Biomedical Engineering, Rochester Institute of Technology, Rochester, NY.

4:40 531. Microfl uidic Electrophoresis of Metallodielectric Patchy Particles. J. Cui; Pen-Tung Sah Institute, Xiamen University, Xiamen, CHINA.

5:00 532. Broken Symmetry in Electrokinetic Flow: The Propulsion of Dielectric and Metal-dielectric Dimers. f. ma1, H. Zhao2, N. Wu1; 1chemical and biological engineerning, colorado school of mines, golden, CO, 2Department of Mechanical Engineering, University of Nevada, Las Vegas, Las Vegas, NV.

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Emulsions, Bubbles and Foams 6: Fabrication of Foam/Emulsion-

Templated MaterialsTuesday, June 24, 2014, 3:40 PM - 5:20 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: D. J. Pine

3:40 533. Porous ceramic materials from foam precursors - design rules. N. D. Denkov, S. Tcholakova, I. Lesov; Department of Chemical Engineering, Sofi a University, Sofi a, BULGARIA.

4:00 534. Aqueous-based processing of functional porous polymer composites. S. Shojaei-Zadeh, H. Rezvantalab; Mechanical and Aerospace Engineering, Rutgers, The State University of New Jersey, Piscataway, NJ.

4:20 535. Fabrication and Properties of Emulsion-Templated Porous and Composite Films from Microfi brillated Cellulose. H. Kim1, Y. Zeng1, K. P. Velikov2,3, O. D. Velev1; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Unilever R&D, Vlaardingen, NETHERLANDS, 3Utrecht University, Utrecht, NETHERLANDS.

4:40 536. A new class of food-grade amphiphiles for the treatment and remediation of oil spills. J. C. Athas1, K. Jun2, C. McCafferty1, O. Owoseni3, V. T. John3, S. R. Raghavan2; 1Chemistry and Biochemistry, University of Maryland, College Park, MD, 2Chemical and Biomolecular Engineering, University of Maryland, College Park, MD, 3Chemical and Biomolecular Engineering, Tulane University, New Orleans, LA.

5:00 537. Gold nanoparticle coated microbubbles for enhanced photoacoustic imaging. M. A. Borden, J. Dove, T. Murray; Mechanical Engineering, University of Colorado, Boulder, CO.

Environmental Science 6Tuesday, June 24, 2014, 3:40 PM - 5:20 PMHouston Golkin

Organizers: Daniel Strongin, Howard FairbrotherPresider: D. Strongin


4:00 539. Silver nanoparticle uptake and growth inhibition in wheat. D. W. Britt1, C. O. Dimkpa2, J. E. McLean3, N. Martineau2, R. Haverkamp4, A. J. Anderson2; 1Biological Engineering, Utah State University, Logan, UT, 2Biology, Utah State University, Logan, UT, 3Utah Water Research Laboratory, Utah State University, Logan, UT, 4School of Engineering and Advanced Technology, Massey University, Palmerston North, NEW ZEALAND.

4:20 540. Preparation characterization and application of a PSF/zirconium based nanoparticle blend fl at sheet membrane. L. YU, Y. YU, J. P. Chen; Civil and Environmental Engineering, National University of Singapore, Singapore, SINGAPORE.

4:40 541. Supported lipid bilayer nanoparticles for remediation of organic toxins. H. Wang1, J. Drazenovic1, B. Kim2, S. Wunder1; 1Chemistry, Temple University, Philadelpha, PA, 2Earth and Environmental Science, Temple University, Philadelpha, PA.

5:00 542. Chemical behavior of different species of phosphorus in coagulation process for phosphorus removal. E. Chung, T. Park, V. Ampunan; Seoul National University, Seoul, KOREA, REPUBLIC OF.

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General Papers 6: Complex MixturesTuesday, June 24, 2014, 3:40 PM - 5:20 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: P. Somasundaran

3:40 543. Spreading of surfactant-laden aerosols at fl uxes comparable to the conducting zone in pulmonary airways. A. Khanal1, T. E. Corcoran1,2, S. Garoff3, T. M. Przybycien1,4, R. D. Tilton1,4; 1Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Medicine, University of Pittsburgh, Pittsburgh, PA, 3Physics, Carnegie Mellon University, Pittsburgh, PA, 4Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA.

4:00 544. Free-solution electrophoresis of end-alkylated DNA in entangled networks of wormlike micelles. J. M. Goldman, J. W. Schneider; Chemical Engineering, Carnegie Mellon University, Pittsburgh, NY.

4:20 545. Invited Lecture: Dynamics of nanoparticles in models of soft and hard porous media. K. He, F. Babaye Khorasani, R. Krishnamoorti, J. Conrad; University of Houston, Houston, TX.

4:40 546. Assembly of 3D Ordered Binary Silica Nanoparticle Superlattices and Multi-modal Porous Carbons. S. KUNG, M. A. Snyder; CHEMICAL ENGINEERING, LEHIGH UNIVERSITY, BETHLEHEM, PA.

5:00 547. Engineered-micelles: an improved method for purifi cation of membrane proteins. G. Patchornik; Biological chemistry, Ariel University, Ariel, ISRAEL.

Glasses/Jamming 6: Shear Thickening and Mechanical Responses

Tuesday, June 24, 2014, 3:40 PM - 5:20 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: R. S. Hoy

3:40 548. Material properties of the shear-thickened state in concentrated near hard-sphere colloidal dispersions. C. Cwalina, N. Wagner; Department of Chemical and Biomolecular Engineering, University of Delaware, Newark, DE.

4:00 549. Invited Lecture: Transient, localized jamming in concentrated suspensions. E. Brown, S. Mukhopadhyay, B. Allen; Mechanical Engineering and Materials Science, Yale University, New Haven, CT.

4:40 550. Glass and gel states of asymmetric binary colloidal mixtures. M. Laurati, T. Sentjabrskaja, J. Hendricks, S. Egelhaaf; Heinrich-Heine University Düsseldorf, Düsseldorf, GERMANY.

5:00 551. Effects of Atomic Layer Deposition on the Mechanical Behavior of Nano-Colloidal Crystals. D. Zhang1, L. Zhang2, D. Lee3, X. Cheng4, G. Feng1; 1Department of Mechanical Engineering, Villanova univeristy, Villanova, PA, 2Department of Mechanical Engineering, University of Alaska - Fairbanks, Fairbanks, AK, 3Department of Cheimcal Engineering, University of Pennsylvania, Philadephia, PA, 4Department of Physics, Bryn Mawr College, Bryn Mawr, PA.

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Molecular Self-Assembly 6Tuesday, June 24, 2014, 3:40 PM - 5:20 PMCohen Terrace


3:40 552. Living photonic devices: Self-assembly from proteins as patchy colloids. A. Sweeney, A. L. Holt, J. Cai, T. Dodson, J. Townsend; Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

4:00 553. Complexes of chitosan/alkylethoxy carboxylate: A rich variety of structures. M. Gradzielski1, L. Chiappisi1, S. Prevost1, I. Grillo2; 1Institut of Chemistry, Technische Universitaet Berlin, Berlin, GERMANY, 2LSS group, Institut Laue-Langevin (ILL), Grenoble, FRANCE.

4:20 554. The role of solvent fl uctuations in hydrophobically driven assembly. R. C. Remsing, A. J. Patel; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

4:40 555. Thermodynamic Interpretation on the Buildup of Polyelectrolyte Multilayer Films. J. Li, Y. Min; Polymer Engineering, University of Akron, Akron, OH.

5:00 556. Quiescent bilayers at the mica-water interface. F. Speranza1, R. K. Thomas2, W. H. Briscoe1; 1School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2PTCL, University of Oxford, Oxford, UNITED KINGDOM.


Tuesday, June 24, 2014, 3:40 PM - 5:20 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: F. Serra

3:40 557. Keynote Lecture: Confi ned assembly of “soft” colloids in micropost arrays. S. Yang, G. Wu; Materials Science & Engineering, University of Pennsylvania, Philadelphia, PA.

4:20 558. Properties of curvature remodeling proteins at membrane interfaces. N. Ramakrishnan, R. P. Bradley, R. W. Tourdot, R. Radhakrishnan; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

4:40 559. A theory for depletion-induced colloidal membranes. L. Kang, T. C. Lubensky; Physics & Astronomy, University of Pennsylvania, Philadelphia, PA.

5:00 560. Colloids attached to lipid membranes: Interparticle force measurements. R. Sarfati, E. R. Dufresne; Yale University, New Haven, CT.

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Patchy and Janus Particles 6Tuesday, June 24, 2014, 3:40 PM - 5:20 PMIrvine Café ‘58

Organizers: Daeyeon Lee, Alberto StrioloPresider: L. Botto

3:40 561. Functionalizing colloids with DNA origami. M. Ben Zion1, C. Maass1, K. Wu1, R. Sha2, N. Seeman2, P. Chaikin1; 1Physics, New York University, New York, NY, 2Chemistry, New York University, New York, NY.

4:00 562. Proteins as patchy colloids: Structure and self-assembly of graded index materials in squid lenses. J. Cai, P. Heiney, A. Sweeney; University of Pennsylvania, Philadelphia, PA.

4:20 563. Polymer Nanoparticles by Flash Nanoprecipitation. C. Sosa, R. Prudhomme, R. Priestley; Chemical and Biological Engineering, Princeton University, Princeton, NJ.

4:40 564. Highly uniform polyhedral colloids formed by colloidal crystal templating. Y. Wang, J. C. Crocker, J. McGinley; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

5:00 565. Janus particles at liquid interfaces. H. Rezvantalab, S. Shojaei-Zadeh; Mechanical and Aerospace Engineering, Rutgers, The State University of New Jersey, Piscataway, NJ.

Rheology and Dynamics 6Tuesday, June 24, 2014, 3:40 PM - 5:20 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: K. M. Schultz

3:40 566. Dynamics and structure: A study of gelation in a non-aqueous colloidal system. F. R. Bartholomew1, P. J. Dowding2, A. F. Routh1; 1Department of Chemical Engineering, University of Cambridge, Cambridge, UNITED KINGDOM, 2Infi neum UK Ltd., Abingdon, UNITED KINGDOM.

4:00 567. Analyzing hydrodynamics and length distributions of carbon nanotubes using analytical ultracentrifugation. J. Fagan, C. Silvera Batista; Materials Science and Engineering Division, National Institute of Standards and Technology, Gaithersburg, MD.

4:20 568. Development of a microstructure based model for thixotropy in colloidal dispersions based on population balances. P. M. Mwasame, A. N. Beris, N. J. Wagner; Chemical and Biomolecular Engineering, University of Delaware, Newark, DE.

4:40 569. Using colloids to model worm-like micelles. K. V. Edmond1, T. W. Jacobson2, S. Sacanna3, A. D. Hollingsworth1, D. J. Pine1; 1Physics, New York University, New York, NY, 2Bridgewater - Raritan High School, Bridgewater, NJ, 3Chemistry, New York University, New York, NY.

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Wetting and Adhesion 6: Antifouling and Measurement

Tuesday, June 24, 2014, 3:40 PM - 5:20 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: E. Dufresne

3:40 570. Direct optical measurement of molecular adsorption on invisible plastic. R. Lanfranco1, E. Di Nicolò2, F. Giavazzi1, M. Salina3, R. Cerbino1, T. Bellini1, M. Buscaglia1; 1Medical Biotechnology and Translational Medicine, University of Milan, Segrate, ITALY, 2Solvey Specialty Polymers, Bollate, ITALY, 3Proxentia s.r.l., Milano, ITALY.

4:00 571. Super-Repellent Surfaces Reduce Bioadhesion. J. Zhao, W. Ming; Chemistry Department, Georgia Southern University, Statesboro, GA.

4:20 572. Novel Single and Multi-cycle Wilhelmy Plate Methods for Wetting, Swelling and Sorption of Porous Materials such as Wood. M. Sedighi Moghaddam1, A. Swerin1, M. E. Wålinder2, P. M. Claesson3; 1Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, SWEDEN, 2School of Architecture and the Built Environment, Department of Civil and Architectural Engineering, KTH Royal Institute of Technology, Stockholm, SWEDEN, 3School of Chemical Science and Engineering, Department of Chemistry, Surface and Corrosion Science, KTH Royal Institute of Technology, Stockholm, SWEDEN.

4:40 573. A fundamental approach to understanding the fouling resistance of exterior coatings. M. Q. Tran, J. M. Rokowski, R. C. Even; The Dow Chemical Company, Spring House, PA.

5:00 574. Bioinspired patterning with extreme wettability contrast on TiO2 nanotube array surface: a versatile platform for biomedical applications. Y. Lai1,2; 1College of Textile and Clothing Engineering, Suzhou, CHINA, 2National Engineering Laboratory of Modern Silk, Suzhou, CHINA.

Unilever Award 2014 LectureTuesday, June 24, 2014, 5:30 PM - 6:30 PMIrvine Auditorium

Organizers: P. Somasundaran, Mike BevanPresider: P. Somasundaran

5:30 575. Janus particles at fl uid interfaces: the third face of Janus. D. Lee; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Abstract:Janus particles are asymmetric colloids with polar and apolar sides. To enable the use of these amphiphilic particles as solid surfactants for the stabilization of multiphasic mixtures such as emulsions and foams, it is critical to understand their behaviour at interfaces. In this talk, I will discuss three aspects of the interfacial behaviour of Janus particles: (1) the lateral interactions between Janus spheres at fl uid interfaces, (2) the confi guration and assembly of non-spherical Janus particles at interfaces, and (3) the thermodynamics of emulsion stabilization using Janus particles. We fi rst show that Janus spheres have strikingly different interfacial behavior compared to their homogeneous counterparts. Janus spheres at a fl uid interface interact with each other via long-ranged attractions. The attractive interactions between interface-trapped Janus spheres are induced by the presence of diffuse boundary between the two hemispheres. Three phase contact line anchored around the rugged Janus boundary deforms the fl uid interface, leading to attractive interactions between the spheres. In the second part of the talk, inspired by the extensive work in the fi eld of surfactant and block copolymer self-assembly, I will discuss the confi gurations of nonspherical Janus particles such as ellipsoids, dumbbells, and cylinders at an oil-water interface. To determine the equilibrium confi gurations, we numerically calculate and minimize the attachment energy of each Janus particle as a function of the orientation angle as well as the vertical displacement with respect to the interface. We fi nd that the equilibrium orientation of nonspherical Janus particles strongly depends on the particle characteristics, such as their size, shape, aspect ratio, surface wettability, and the location of the Janus boundary. In the last part of my talk, I will discuss the thermodynamic aspect of emulsion formation using homogenous and Janus particles. Because the attachment energy of Janus particles to fl uid-fl uid interfaces is signifi cantly larger than that of homogenous particles, it is possible to generate Pickering emulsions that are thermodynamically stable when Janus particles are used as stabilizers.

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LaMer Award 2014 LectureWednesday, June 25, 2014, 8:20 AM - 9:20 AMIrvine Auditorium

Organizers: Daeyeon Lee, Mike BevanPresider: Daeyeon Lee

8:20 576. Dynamic modeling of colloidal assembly. D. Beltran-Villegas; Biointerfaces Institute, University of Michigan, Ann Arbor, MI.

Abstract:Understanding concentrated colloidal dynamics in the presence of different pairwise interactions and external fi elds provides a basis to predict the temporal evolution of colloidal microstructures in diverse phenomena including suspension rheology and colloidal assembly. However, a microscopic theory of concentrated colloidal dynamics does not yet exist that rigorously includes both statistical mechanical (confi guration dependent free energy changes) and fl uid mechanical (confi guration dependent multi-body hydrodynamic interactions) contributions. This work shows the implementation of a novel approach to model colloidal assembly by means of analyzing the temporal evolution of microstructures, that can be observed in experiments and simulation, with a small number of order parameters that describe the state of the system. This methodology is used to analyze the structure evolution of isotropic and anisotropic colloidal building blocks. Knowledge of these dynamic models enable the fundamental understanding of assembly systems, as well as the optimization, design and control of assembly systems to produce low-defect colloidal crystals.

Biocolloids 7: Drug CarriersWednesday, June 25, 2014, 9:50 AM - 12:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: D. J. Pine

9:50 577. Keynote Lecture: Cell-mimetic Synthetic Colloids for Biological Applications. S. Mitragotri; Chemical Engineering, UC Santa Barbara, Santa Barbara, CA.

10:30 578. Layer by layer assembly of nanoparticle for encapsulation and release of peptide therapeutics. R.F. Pagels, R. K. Prud’homme; Chem and Biol Engr, Princeton University, NJ.

10:50 579. Friend or foe: inhibiting phagocytic clearance by shape, fl exibility, and ‘Marker of Self’. P. Nair, P. Rodriguez, T. Harada, D. Christian, D. Pantano, E. Pratt, A. Bradshaw, N. Sancho Oltra, K. Spinler, D. Discher; University of Pennsylvania, Philadelphia, PA.

11:10 580. Hydrodynamic models for deformable functionalized nanocarriers. A. Sarkar1, D. M. Eckmann2, P. S. Ayyaswamy3, R. Radhakrishnan1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, 3Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

11:30 581. Microbubble Size, Acoustic Interactions and In Vitro Sonoporation Effi ciency. M. A. Borden, K. Song, A. Fan; Mechanical Engineering, University of Colorado, Boulder, CO.

11:50 582. Colloidal properties of erythrosomes derived from red blood cells. Y. Kuo1, D. Huang2, H. Oh2, W. D’Souza1,3, S. Raghavan1,2; 1Bioengineering, University of Maryland, College Park, MD, 2Chemical and Biomedical Engineering, University of Maryland, College Park, MD, 3Radiation Oncology, University of Maryland School of Medicine, Baltimore, MD.

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Biointerfaces 7: Biochemistry and Biomedical Applications

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: T. Baumgart

9:50 583. Trifl uorosilane induced structural transitions in proteins in sol and gel. D. W. Britt1, N. W. Turner2, Y. Peng1, A. Giasuddin1; 1Biological Engineering, Utah State University, Logan, UT, 2Department of Life, Health & Chemical Sciences, The Open University, Milton Keynes, UNITED KINGDOM.

10:10 584. NonSELEX approach to identify DNA aptamers for gold substrates. M. N. Tapp1, R. Sullivan1, P. Dennis2, R. R. Naik2, V. T. Milam1; 1Materials Science & Engineering, Georgia Institute of Technology, Atlanta, GA, 2Wright-Patterson Air Force Research Laboratory, Wright-Patterson AFB, OH.

10:30 585. Interfacial Biofi lm Formation Regulated by Geometry. Y. Chang1, T. Angelini2, S. Marquez3, H. Kim1, A. Fernandez-Nieves1; 1School of Physics, Georgia Institute of Technology, Atlanta, GA, 2Mechanical & Aerospace Engineering, University of Florida, Gainesville, FL, 3Maggie L. Walker Governor’s School for Government and International Studies, Richmond, VA.

10:50 586. Functional and Structural Characterization of the Enzybiotic PlyC at Lipid Membrane Interfaces. M. Barros1, T. Vennemann1, F. Heinrich2,3, D. Nelson4, M. Lösche2,3; 1Department of Physics, Carnegie Mellon University, Pittsburgh, PA, 2Physics, Carnegie Mellon University, Pittsburgh, PA, 3National Institute of Standard and Technology (NIST), Gaithersburg, MD, 4Institute for Bioscience and Biotechnology Research, University of Maryland, Rockville, MD.

11:10 587. Biodetoxifi cation by Lipid Emulsion Droplets: Coarse Grained Molecular Dynamics at the Oil/Water Interface. M. A. Ayee, B. S. Akpa; Chemical Engineering, University of Illinois at Chicago, Chicago, IL.

Colloidal and Surface Forces 7: Surface Forces and Friction

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: Z. Xu

9:50 588. Sustained frictional instabilities on nanostructured surfaces: Stick-slip amplitude coeffi cient (SSAC). B. Quignon, W. H. Briscoe; School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

10:10 589. Direct measurement of an anchoring transition in a nematic liquid crystal subject to hybrid anchoring conditions. M. Ruths1, B. Zappone2; 1Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, 2CNR-IPCF Liquid Crystal Lab, University of Calabria, Rende, ITALY.

10:30 590. Twin-path surface force apparatus and its applications. K. Kurihara1,2, M. Mizukami3, M. Kasuya3; 1AIMR, Tohoku University, Sendai, JAPAN, 2Imram, Tohoku University, Sendai, JAPAN, 3IMRAM, Tohoku University, Sendai, JAPAN.

10:50 591. Lubrication by polymersomes under nanoconfi nement. J. E. Bartenstein1, J. S. Diget2, B. Ø. Nystrøm2, P. M. Claesson3, W. H. Briscoe1; 1School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2Department of Chemistry, University of Oslo, Oslo, NORWAY, 3Department of Chemistry, KTH Royal Institute of Technology, Stockholm, SWEDEN.

11:10 592. Measuring the hydrophobic force in a soft matter system. R. F. Tabor1, C. Wu2, F. Grieser2, R. R. Dagastine2, D. Chan2; 1School of Chemistry, Monash University, Clayton, AUSTRALIA, 2University of Melbourne, Parkville, AUSTRALIA.

11:30 593. Solvent cavitation under solvophobic confi nement. H. Ashbaugh; Chemical and Biomolecular Engineering, Tulane University, New Orleans, LA.

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11:50 594. Long-range interaction forces between hydrophobic and superhydrophobic surfaces studied by AFM colloidal probe microscopy. P. M. Hansson1, A. Swerin1, M. Wåhlander2, E. Thormann3, P. M. Claesson3; 1Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, SWEDEN, 2Department of Chemistry, Fibre and Polymer Technology, KTH Royal Institute of Technology, Stockholm, SWEDEN, 3Department of Chemistry, Surface and Corrosion Science, KTH Royal Institute of Technology, Stockholm, SWEDEN.

Directed Assembly 7: Templated Assembly

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: C. Kagan

9:50 595. Patterned transparent conductive Au fi lms through direct reduction of gold thiocyanate on surfaces. R. Jelinek, T. Vinod; Chemistry, Ben Gurion University, Beer Sheva, ISRAEL.

10:10 596. Reconfi gurable depletion mediated assembly on multi-scale physical patterns. T. D. Edwards, M. A. Beavn; Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

10:30 597. Manipulating the assembly of colloids through the use of nucleation centers. S. S. Lee, X. Zhong, M. D. Ward; Chemistry, New York University, New York, NY.

10:50 598. Nano-disco balls: Polyphosphazene nanospheres surface loaded with diagnostically active nanocrystals. P. Chhour1, N. Gallo2, R. Cheheltani2, D. Williams3, A. Al-Zaki1, T. Paik4, J. L. Nichol5, Z. Tian5, P. C. Naha2, H. R. Allcock5, C. B. Murrary4, A. Tsourkas1, D. P. Cormode2; 1Bioengineering, University of Pennsylvania, Philadelphia, PA, 2Radiology, University of Pennsylvania, Philadelphia, PA, 3Biochemistry and Biophysics, University of Pennsylvania, Philadelphia, PA, 4Chemistry, University of Pennsylvania, Philadelphia, PA, 5Chemistry, Pennsylvania State University, State College, PA.

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11:10 599. Plasmon-enhanced upconversion luminescence in individual nanophosphor-nanorod structures formed through template-assisted self-assembly. N. J. Greybush1, M. Saboktakin2, X. Ye3, S. Oh1, C. Della Giovampaola2, N. E. Berry1, N. Engheta2,1,4, C. B. Murray3,1, C. R. Kagan2,1,3; 1Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Electrical and Systems Engineering, University of Pennsylvania, Philadelphia, PA, 3Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 4Department of Bioengineering, University of Pennsylvania, Philadelphia, PA.

11:30 600. Electrophoretic deposition of iron oxide nanoparticles: Dynamics and 2D assembly. S. D. Oberdick, S. A. Majetich; Physics, Carnegie Mellon University, Pittsburgh, PA.

11:50 601. Biomolecule triggered shape transformation of hybrid hydrogels. J. C. Athas1, K. Jun2, C. McCafferty1, B. Zarket2, Z. Nie1, S. R. Raghavan2; 1Chemistry and Biochemistry, University of Maryland, College Park, MD, 2Chemical and Biomolecular Engineering, University of Maryland, College Park, MD.

Emulsions, Bubbles and Foams 7: Emulsions Coated with Nanoparticles, Polymeric Shells and Metals / Armored

EmulsionsWednesday, June 25, 2014, 9:50 AM - 12:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: M. F. Haase

9:50 602. Making and breaking particle bridges in Pickering emulsions. D. J. French, P. S. Clegg; School of Physics and Astronomy, University of Edinburgh, Edinburgh, UK.

10:10 603. Tunably soft colloids synthesis and characterization by holographic microscopy. C. Wang1, H. Shpaisman2, D. G. Grier1; 1Physics Department, New York University, New York, NY, 2Department of Chemistry, Bar-Ilan University, Ramat Gan, ISRAEL.

10:30 604. Gelatin particles stabilized Pickering High Internal Phase Emulsion as nutraceutical containers. H. Tan1, W. Lin2, T. Ngai3; 1Department of Pharmaceutics and Bioengineering, Sichuan University, Chengdu, CHINA, 2National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu, CHINA, 3Department of Chemistry, The Chinese University of Hong Kong, Hong Kong, HONG KONG.

10:50 605. Designing smart, responsive communicating microcapsules from polymersomes. W. Jang1, S. Park1, F. Tu1, S. J. Henry2, D. Lee1, D. A. Hammer1; 1Chemical and Biological Engineering, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

11:10 606. Bicontinuous emulsions stabilized by nanoparticles. M. Reeves, J. Thijssen; SUPA School of Physics and Astronomy, University of Edinburgh, Edinburgh, UNITED KINGDOM.

11:30 607. Fluorescent microparticles fabrication through chemical coating of O/W emulsion droplets with a thin metallic fi lm. J. FATTACCIOLI; Ecole Normale Supérieure, Paris, FRANCE.

174 175

11:10 607a. Transfer Printed Monolayer Latex Particle Template Assisted Fabrication of Gold Micro/Nano Wires Via Evaporation Lithography. S. Lone,1 I. U. Vakarelski,1 B.Chew2 & S. T. Thoroddsen1,1Division of Physical Sciences and Engineering, King Abdullah University of Science &Technology (KAUST), Thuwal, Saudi Arabia. 2Advanced Nanofabrication Imaging and Characterization, King Abdullah University of Science & Technology (KAUST), Thuwal, Saudi Arabia..

Environmental Science 7Wednesday, June 25, 2014, 9:50 AM - 12:10 PMHouston Golkin

Organizers: Daniel Strongin, Howard FairbrotherPresider: B. Kim

9:50 608. The interfacial mechanism of solvent extraction of rare earth metal ions. M. Schlossman; Physics, University of Illinois at Chicago, Chicago, IL.

10:10 609. Exsolved metal catalysts from perovskite host lattices. T. Oh, R. J. Gorte, J. M. Vohs; University of Pennsylvania, Philadelphia, PA.

10:30 610. Role of pore-size in desalination via capacitive deionization: Grand Canonical Monte Carlo simulations. P. Taboada-Serrano1, C. Hou2, X. Li3; 1Chemical and Biomedical Engineering and Microsystems Ph.D. Program, Rochester Institute of Technology, Rochester, NY, 2Graduate Institute of Environmental Engineering, National Taiwan University, Taipei, TAIWAN, 3Microsystems Engineering Ph.D. Program, Rochester Institute of Technology, Rochester, NY.

10:50 611. Adhesion of Dust Particles to Common Indoor Surfaces in Air-Conditioned Environment. C. C. Tan1, S. Gao2, B. Wee3, A. Asa-Awuku4, B. R. Thio1; 1Engineering Product Development, Singapore University of Technology and Design, Singapore, SINGAPORE, 2Center for Environmental Research and Technology, University of California - Riverside, Riverside, CA, 3Chemistry, University Malaysia Sarawak, Kuching, MALAYSIA, 4Chemical and Environmental Engineering, University of California - Riverside, Riverside, CA.

176 177

11:10 612. Effect of dispersant on oil droplet size distribution. F. J. Guzman1, S. Yi2, L. Zhao2, M. C. Boufadel2; 1Chemical Engineering, New Jersey Institute of Technology, Newark, NJ, 2Civil and Environmental Engineering, New Jersey Institute of Technology, Newark, NJ.

11:30 613. Inhibition of interfacial gas hydrate growth in the presence of nanoparticles. S. Baek1, J. F. Morris2,3, J. W. Lee3,1; 1Chemical & Biomolecular Engineering, KAIST, Daejeon, KOREA, REPUBLIC OF, 2Levich Institute, The City College of New York, New York, NY, 3Chemical Engineering, The City College of New York, New York, NY.

General Papers 7: Polymers and Scattering I

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: J. Schneider

9:50 614. Spatio-temporal structure of fi ller nanoparticles in styrene-butadiene rubber. Y. Shinohara1, H. Kishimoto2, Y. Amemiya1; 1Department of Advanced Materials Science, The University of Tokyo, Kashiwa, JAPAN, 2Sumitomo Rubber Industries Ltd., Kobe, JAPAN.

10:10 615. Simple preparation of polyelectrolyte complex beads for the long-term release of small molecules. U. K. de Silva, B. Weik, Y. Lapitsky; Chemical and Environmental Engineering, University of Toledo, Toledo, OH.

10:30 616. Equilibrium swelling of polyelectrolyte soft-contact-lens-material hydrogels. T. J. Dursch1, F. Nguyen1, T. Sells1, J. M. Prausnitz1, C. J. Radke1,2; 1Chemical and Biomolecular Engineering, University of California Berkeley, Berkeley, CA, 2Vision Science Group, University of California Berkeley, Berkeley, CA.

10:50 617. Scattering function of star polymer with excluded volume effect. X. Li1, L. Porcar2, Y. Liu3, C. Do1, G. S. Smith1, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 2Institut Laue-Langevin, Greenoble, FRANCE, 3University of Delaware, Newark, DE.

11:10 618. The effect of PEO99-PPO65-PEO99 block copolymer on association/dissociation transitions of DNA-coated colloids. M. Song, J. Mittal, M. A. Snyder; Lehigh University, Bethlehem, PA.

11:30 619 Designed self-assembly kinetics to engineer the structural, mechanical and dielectric properties of fi brillar conjugated polymer organogels. G. M. Newbloom1, P. de la Iglesia1, K. M. Weigandt2, L. D. Pozzo1; 1Chemical Engineering, University of Washington, Seattle, WA, 2Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD.

178 179

Glasses/Jamming 7: Order and Disorder

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: P. Charbonneau

9:50 620. Between order and disorder: Mechanical extremes of a solid. C. P. Goodrich1, A. J. Liu1, S. R. Nagel2; 1Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2The James Franck Institute, University of Chicago, Chicago, IL.

10:10 621. Keynote Lecture: Flow of colloidal glasses. P. Schall; Institute of Physics, University of Amsterdam, Amsterdam, NETHERLANDS.

10:50 622. Understanding colloidal crystal nucleation and glass formation via exact enumeration of small-N sphere packings. R. S. Hoy; Physics, University of South Florida, Tampa, FL.

11:10 623. Microscopic and rheological roles of disorder in a 2D glassy solid. N. C. Keim, P. E. Arratia; Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

11:30 624. A new method for identifying defects in disordered solids. S. Wijtmans, L. Manning; Physics, Syracuse University, Syracuse, NY.

11:50 625. Robust Strength/Stiffness Correlation in Disordered Colloidal Micropillars. D. Strickland1, L. Zhang2, Y. Huang2, D. Lee2, D. S. Gianola1; 1Department of Materials Science & Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Microfl uidics: Particle SynthesisWednesday, June 25, 2014, 9:50 AM - 12:10 PMDRL A5

Organizers: Paulo Arratia, Kevin TurnerPresider: P. E. Arratia

9:50 626. Keynote Lecture: Reverse engineering of natural soft matter: Devices based on hydrogel microfl uidics and ionic electronics. O. D. Velev; Chemical and Biomolecular Engineering, North Carolina State University, Raleigh, NC.

10:30 627. Synthesis of Three-Dimensional Magnetic Particles Based on Two-Dimensional Microfl uidic Channels. N. Hakimi1, S. S. Tsai2, C. Cheng1, D. Hwang1; 1Chemical Engineering, Ryerson University, Toronto, ON, CANADA, 2Mechanical and Industrial Engineering, Ryerson University, Toronto, ON, CANADA.

10:50 628. Functional, monodisperse and acoustically programmable silicone gel particles for bioanalytical acoustofl uidics. C. W. Shields, IV1,2, K. A. Duval3, D. Sun1, G. P. Lopez1,2,3; 1Biomedical Engineering, Duke University, Durham, NC, 2NSF Research Triangle Materials Research Science and Engineering Center, Durham, NC, 3Mechanical Engineering and Materials Science, Duke University, Durham, NC.

11:10 629. Single-step microfl uidic fabrication of soft microcapsules by interfacial polyelectrolyte complexation. G. Kaufman1, R. Boltyanskiy2, S. Nejati1, A. R. Thiam3, M. Loewenberg1, E. Dufresne2, C. O. Osuji1; 1Chemical Engineering, Yale, New Haven, CT, 2Physics, Yale, New Haven, CT, 3Cell Biology, Yale, New Haven, CT.

11:30 630. Physical and chemical measurements of nanoparticles using near fi eld optics. R. Hart, C. Earhart, B. Cordovez; Optofl uidics, Philadelphia, PA.

11:50 631. Simple Generation of Janus Particles Using Magnets. A. Lu1, D. DeVoe2, S. Raghavan1; 1Chemical and Biomolecular Engineering, University of Maryland, College Park, MD, 2Mechanical Engineering, University of Maryland, College Park, MD.

180 181

Molecular Self-Assembly 7Wednesday, June 25, 2014, 9:50 AM - 12:10 PMCohen Terrace

Organizers: Dan Hammer, Darrin PochanPresider: K. Vargo

9:50 632. Self-assembly and structure in ternary water/alkane/surfactant mixtures with two or three liquid phases. J. Siepmann1, D. Harwood1, A. Cortes-Morales1, P. Bai1, C. J. Peters2; 1Department of Chemistry, University of Minnesota, Minneapolis, MN, 2Department of Chemical Engineering, The Petroleum Institute, Abu Dhabi, UNITED ARAB EMIRATES.

10:10 633. Pressure Reentrant Assembly: Direct Simulation of Volumes of Micellization. H. Ashbaugh; Chemical and Biomolecular Engineering, Tulane University, New Orleans, LA.

10:30 634. Molecular Dynamics Simulations of Sodium Dodecyl Sulfate Micelles in Water - the Effect of the Force Field. X. Tang1, P. H. Koenig2, R. G. Larson1; 1Chemical Engineering, University of Michigan, Ann Arbor, MI, 2Procter and Gamble, Cincinnati, OH.

10:50 635. A computational microscope: Coarse Grained simulations of dense bicontinuous microemulsions systems. E. Negro1, R. Latsuzbaia1, A. De Vries2, G. J. Koper1; 1Delft University of Technology, Delft, NETHERLANDS, 2University of Groningen, Groningen, NETHERLANDS.

11:10 636. Probing Microstructural Organization Of Pharmaceutically Accepted Microemulsions. G. Sidhu, Jr.; SSBUICET, Panjab University, Chandigarh, Chamdigarh, INDIA.

11:50 637. Sugar Amphiphiles: A New Family of Healthy Vegetable Oil Structuring Agents. G. John; Chemistry, the City College of New York, New York, NY.


Wednesday, June 25, 2014, 9:50 AM - 12:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: A. D. Dinsmore

9:50 637a. Void formation in experimental salt-free dispersions of highly charged colloidal spheres. D. Gillespie; School of Chemistry, University of Bristol, Bristol, UK.

10:10 638. Ordered colloidal particle monolayers at liquid crystal interfaces. W. Wei1, M. Lohr1, M. Gharbi1, K. Stebe2, A. G. Yodh1; 1Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

10:30 639. Isotropic - nematic phase transition in aqueous sepiolite clay rods. P. Woolston, J. van Duijneveldt; School of Chemistry, University Of Bristol, Bristol, UNITED KINGDOM.

10:50 640. Anisotropic articles at the nematic/air interface: Elasto-capillary interactions. I. B. Liu1, M. A. Gharbi2, V. L. Ngo1, R. D. Kamien3, S. Yang4, K. J. Stebe1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Chemical and Biomolecular Engineering, Physics and Astronomy, Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 4Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

11:10 641. Keynote Lecture: Templated Assembly of Colloids using Liquid Crystalline Droplets. D. Miller1, X. Wang1, J. Whitmer2, J. J. de Pablo2, N. L. Abbott1; 1Chemical and Biological Engineering, University of Wisconsin-Madison, Madison, WI, 2Institute for Molecular Engineering, University of Chicago, Chicago, IL.

182 183

11:50 642. Elasto-capillary interactions between solid spheres at smectic membranes. M. GHARBI1, R. Kamien1, S. Yang2, K. Stebe3; 1Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA, 2Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Rheology and Dynamics 7Wednesday, June 25, 2014, 9:50 AM - 12:10 PMDRL A7

Organizers: Chinedum Osuji, Kelly SchultzPresider: C. Osuji

9:50 643. Dynamics of functionalized nanocarrier binding to cell surface in the presence of hydrodynamic interactions studied using generalized Langevin equations and dynamical density functional theory. H. Y. Yu1, H. Vitoshkin1, D. M. Eckmann2, P. S. Ayyaswamy3, R. Radhakrishnan1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, 3Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:10 644. Nuclear damage in constrained 3D-migration extends from the lamina to DNA breaks. J. Irianto, A. Athirasala, R. Diegmiller, J. Swift, D. E. Discher; School of Engineering and Material Science, University of Pennsylvania, Philadelphia, PA.

10:30 645. Microrheological characterization of cell-mediated degradation in the pericellular region during human mesenchymal stem cell migration. K. M. Schultz1, K. A. Kyburz2, K. S. Anseth2; 1Department of Chemical Engineering, Lehigh University, Bethlehem, PA, 2Department of Chemical and Biological Engineering, University of Colorado and the Howard Hughes Medical Institute, Boulder, CO.

10:50 646. Dynamics in Steady State in-Vitro Acto-Myosin Networks. Y. Roichman, A. Sonn-Segev, H. Diamant; Tel Aviv University, Tel Aviv, ISRAEL.

184 185

11:10 647. How dynamic clusters contribute to viscosity in lysozyme solutions. S. D. Hudson1, P. Godfrin2, L. Procar3, P. Falus3, K. Hong4, N. J. Wagner2, Y. Liu2; 1Polymers and Complex Fluids Group, NIST, Gaithersburg, MD, 2Chemical and Biomeloecular Engineering, U. Delaware, Newark, DE, 3ILL, Grenoble, FRANCE, 4Center For Nanophase Materials Sciences, ORNL, Oak Ridge, TN.

11:30 648. Stress localization, stiffening and yielding in a model colloidal gel. J. Colombo1, E. Del Gado2,1; 1ETH Zurich, Zurich, SWITZERLAND, 2Department of Physics, Georgetown University, Washington, DC.

11:50 649. Visualizing Buckling of Semifl exible Chains. J. Zhao, S. L. Biswal; Chemical and Biomolecular Engineering, Rice University, Houston, TX.

Wetting and Adhesion 7: Dynamic Wetting and Models

Wednesday, June 25, 2014, 9:50 AM - 12:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: E. Dufresne

9:50 650. Dynamic contact angles in liquid-liquid systems. A. Al-Shareef; Chemical & Biochemical Engineering, Missouri University of Science and Technology, Rolla, MO.

10:10 651. Understanding of contact angle hysteresis beyond the single defect model. P. Tong1, Y. Wang1, S. Guo1, H. Chen2; 1Department of Physics, Hong Kong University of Science and Technology, Hong Kong, HONG KONG, 2Department of Physics, National Central University, Jhongli, TAIWAN.

10:30 652. Electrostatically Driven Precursor Films. S. Mahmoudi, K. Varanasi; MIT, Cambridge, MA.

10:50 653. Effects of three-phase contact line on contact angle hysteresis and depinning force on micro-porous hydrophobic surfaces. Y. Jiang, M. A. Sarshar, W. Xu, C. Choi; Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ.

11:10 654. Dynamic wetting of hydrophobic polymers by aqueous surfactant and superspreader solutions. X. Wang1, L. Chen1, E. Bonaccurso1, J. Venzmer2; 1Center of Smart Interfaces, Darmstadt, GERMANY, 2Evonik Industries AG, Essen, GERMANY.

11:30 655. Dewetting dynamics of two-liquid systems: a micro-scale study. F. Lin1, L. He1,2, B. Primkulov1, Z. Xu1,3; 1Chemical and Materials Engineering, University of Alberta, Edmonton, AB, CANADA, 2School of Chemical Engineering and Technology, Tianjin University, Tianjin, CHINA, 3Institute of Nuclear and New Energy Technology,Tsinghua University, Beijing, CHINA.

186 187

11:50 656. Theoretical models for depinning forces of evaporating droplets on pillared superhydrophobic surfaces. M. A. Sarshar, Y. Jiang, W. Xu, C. Choi; Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ.

Biocolloids 8Wednesday, June 25, 2014, 1:30 PM - 3:10 PMHouston Ben Franklin

Organizers: Dennis Discher, Michael RubinsteinPresider: S. Mitragotri

1:30 657. Effect of drop diameter of microbial degradation. G. Juarez, R. Stocker; Civil and Environmental Engineering, MIT, Cambridge, MA.

1:50 658. Coupled effects of hydrodynamic and solution chemistry conditions on long-term nanoparticle transport and deposition in saturated porous media. S. Sasidharan1,2, S. Torkzaban1, S. A. Bradford3, P. J. Dillon1, P. G. Cook1,2; 1Land and water, CSIRO, Adelaide, South Australia, AUSTRALIA, 2Flinders University of South Australia, National Centre for Groundwater Research and Training, Adelaide, AUSTRALIA, 3ARS, Salinity Laboratory, USDA, Riverside, 92507, CA.

2:10 659. Environmental toxicological screening of gold nanoparticles designed for nanomedicine applications. P. C. Naha1, P. Chhour2, D. C. Cormode1; 1Radiology, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

188 189

Biointerfaces 8: Bacterial Biointerfaces

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: D. Issadore

1:30 660. Studying Interactions of Bacteria with Colloidal Crystals: Inhibiting Microbial Colonization of Surfaces Using Colloidal Crystals. M. Kargar, A. Pruden, W. Ducker; Virginia Tech, Blacksburg, VA.

1:50 661. Molecular uptake and membrane transport in living bacteria: Real-time observations with optical transmission microscopy and second-harmonic light scattering. M. J. Wilhelm1, J. B. Sheffi eld2, G. Gonella1, Y. Wu1, C. Spahr1,3, B. Xu1, J. Zeng4,5, M. Sharifi an, Gh.1, H. Dai1; 1Department of Chemistry, Temple University, Philadelphia, PA, 2Department of Biology, Temple University, Philadelphia, PA, 3Department of Biology, Eidgenössische Technische Hochschule (ETH) Zü rich, Zü rich, SWEDEN, 4Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 5Global Foundries, Sunnyvale, CA.

2:10 662. Impacts of the physiochemical charge-regulation effect on the growth of attached bacteria. H. Zhu, L. Albert, D. Brown; Civil & Environmental Engineering, Lehigh University, Bethlehem, PA.

2:30 663. Charge-regulated variation in pH between two adhering surfaces and its ability to affect bioenergetics of attached bacteria under non-growth conditions. L. S. Albert, H. Zhu, D. G. Brown; Civil and Environmental Engineering, Lehigh University, Bethlehem, PA.

2:50 664. Oxygen diffusion impact on bacterial growth. D. Lalanne-Aulet1, A. Colin1, P. Guillot2, A. Piacentini1; 1UMR 5258 - Rhodia/Laboratoire du Futur, Bordeaux, FRANCE, 2Solvay, Bordeaux, FRANCE.

Colloidal and Surface Forces 8: Dispersions

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: J. Fagan

1:20 665. Dynamical crossover in soft colloids below the overlap concentration. X. Li1, L. E. Sanchez-Diaz1, B. Wu2, W. A. Hamilton1, L. Porcar3, P. Falus3, Y. Liu4, C. Do1, G. S. Smith1, T. Egami2, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 2University of Tennessee, Knoxville, TN, 3Institut Laue-Langevin, Greenoble, FRANCE, 4Department of Chemical Engineering, University of Delaware, Newark, DE.

1:50 666. Dynamics of hard and soft colloids confi ned between parallel walls. S. Yarlagadda, V. Breedveld; Chemical Engineering, Georgia Institute of technology, Atlanta, GA.

2:10 667. Transitions of a hard-sphere colloidal crystal to colloidal crystals with attractive interactions. M. Gratale, Y. Xu, A. Yodh; Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

2:30 668. Salt-induced aggregation of self-preserving carbon dispersions. J. J. McDermott1, I. D. Morrison1, P. M. Wright2, J. I. Emert2, D. A. Weitz3; 1School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, 2Infi neum USA LP, Linden, NJ, 3Department of Physics and School of Engineering and Applied Sciences, Harvard University, Cambridge, MA.

2:50 669. Phase behavior of microgel suspensions. M. PELAEZ-FERNANDEZ1, A. SOUSLOV1, L. LYON2, P. GOLDBART1, A. FERNANDEZ-NIEVES1; 1SCHOOL OF PHYSICS, GEORGIA INSTITUTE OF TECHNOLOGY, ATLANTA, GA, 2SCHOOL OF CHEMISTRY AND BIOCHEMISTRY, GEORGIA INSTITUTE OF TECHNOLOGY, ATLANTA, GA.

190 191

Directed Assembly 8: Field-Assisted Assembly II

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: M. Zhang

1:30 670. Magneto-Responsive, Anisotropic, and Hybrid Microparticles of Variable Size and Shape. S. Lee, S. Yang; Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

1:50 671. Measuring and modeling dipolar interactions in rotating magnetic fi elds. A. Coughlan, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

2:10 672. Nacre-like composite materials produced via magnetically-controlled sol-gel phase separation. M. Furlan, M. Lattuada; Adorlphe Merkele Institute, University of Fribourg, Marly, SWITZERLAND.

2:30 673. Thin fi lm capacitor of silver-dielectric core/shell nanoparticles with uniform metal nanoparticle distribution and controlled spacing. X. Li, O. Niitsoo, A. Couzis; Chemical Engineering, The City College of New York, New York, NY.

2:50 674. Trapping properties of optical conveyors. D. B. Ruffner, D. G. Grier; Physics, New York University, New York, NY.

Emulsions, Bubbles and Foams 8: Particulate Shape Control in Emulsion

DropletsWednesday, June 25, 2014, 1:30 PM - 3:10 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: S. L. Biswal

1:30 675. A SANS study of water in supercritical carbon dioxide microemulsions with spherical core-shell structures. C. Yan1, J. Eastoe1, C. James1, S. Rogers2; 1Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2ISIS, STFC, Rutherford Appleton Laboratory, Didcot, UNITED KINGDOM.

1:50 676. Nanostructure engineering by template-assisted self-assembly of nanoparticles inside evaporating droplets. X. Yang, Y. Sun; Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA.

2:10 677. Effect of silica nanoparticle aggregate state on the formation of Pickering emulsions and oil-mineral aggregates. M. Sender1, S. Fields1, A. Gupta2, G. D. Bothun1; 1Chemical Engineering, University of Rhode Island, Kingston, RI, 2Texas A&M International University, Laredo, TX.

2:30 678. Interfacial arrest and packing in nonspherical Pickering emulsion droplets. P. Spicer1, Z. Wei1, T. Atherton2, C. Burke2; 1School of Chemical Engineering, UNSW Australia, Sydney, AUSTRALIA, 2Department of Physics and Astronomy, Tufts University, Medford, MA.

192 193

General Papers 8: Polymers and Scattering II

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: D. J. Beltran-Villegas

1:30 679. Understanding Colloidal Stability in Ionic Liquid [Bmim][BF4]. J. Gao1, R. S. Ndong1, M. B. Shifl ett2, N. J. Wagner1; 1Chemical & Biomolecular Engineering, University of Delaware, Newark, DE, 2Central Research and Development, DuPont Company, Wilmington, DE.

1:50 680. Multifunctional Rheology Modifi ers for Cosmetic Applications: Recent Trends. M. S. Vethamuthu1, E. DiAntonio2, V. Johnson3, H. Fares1, L. Foltis4; 1Skin Care, ASHLAND Specialty Ingredients, Bridgewater, NJ, 2Hair Care, ASHLAND Specialty Ingredients, Bridgewater, NJ, 3Materials Science, ASHLAND Specialty Ingredients, Bridgewater, NJ, 4Care, ASHLAND Specialty Ingredients, Bridgewater, NJ.

2:10 681. Understanding the role of solvents and ligand exchange agents on surface chemistry and electronic and photophysical properties of semiconductor nanocrystals. E. D. Goodwin1, B. T. Diroll1, C. H. de Ruijter2, C. R. Kagan3, C. B. Murray4; 1Chemistry, University of Pennsylvania, Philadelphia, PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Electrical and Systems Engineering, Materials Science and Engineering, Chemistry, University of Pennsylvania, Philadelphia, PA, 4Chemistry, Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

2:30 682. Using NMR solvent relaxation to study Graphene, Graphene Oxide and Nanographite dispersions. D. Fairhurst1, T. Cosgrove2; 1XiGo Nanotools Inc, Bethlehem, PA, 2Department of Physical Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

2:50 683. Interactive forces between sodium dodecyl sulfate-suspended single-walled carbon nanotubes and agarose gels. C.

A. Silvera Batista1, J. G. Clar2, S. Youn2, J. Bonzongo2, K. J. Ziegler3; 1Chemical Engineering, University of Michigan, Ann Arbor, MI, 2Environmental Engineering Sciences, University of Florida, Gainesville, FL, 3Chemical Engineering, University of Florida, Gainesville, FL.

194 195

Glasses/Jamming 8: ColloidsWednesday, June 25, 2014, 1:30 PM - 3:10 PMSkirkanich Berger

Organizers: Rob Riggleman, Andrea Liu, Eric WeeksPresider: Z. Fakhraai

1:30 684. Using ultrasound method for the evaluation of dispersibility and stability of clay colloids in aqueous suspensions. S. Ali; Soft Condensed Matter Group, Raman Research Institute, Bangalore, INDIA.

1:50 685. Glassy states in a charged colloidal system. B. Ruzicka; CNR-IPCF and Dip. di Fisica, Sapienza Universita’, ROMA, ITALY.

2:10 686. Attractive Semifl exible Fiberlike Colloidal Particles from Bacterial Cellulose Microfi brils. A. Kuijk1, R. Koppert1, P. Versluis1, G. van Dalen1, C. Remijn1, J. Hazekamp1, J. Nijsse1, S. Veen1, K. P. Velikov1,2; 1Unilever R&D Vlaardingen, Vlaardingen, NETHERLANDS, 2Soft Condensed Matter, Debye Institute for Nanomaterials Science, Utrecht University, Utrecht, NETHERLANDS.

2:30 687. Keynote Lecture: Flow defects and instabilities in jammed packings. A. Liu; Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

Microfl uidics: Multiphase Interfacial Phenomena

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMDRL A5

Organizers: Paulo Arratia, Kevin TurnerPresider: A. Kotula

1:50 688. Overfl ow cascades in open microfl uidic devices. I. Jacobi, J. S. Wexler, H. A. Stone; Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ.

2:10 689. On the coupled effects of local slip length and curvature at liquid-gas interfaces on the effective slip length over superhydrophobic surfaces. W. Zheng1, L. Wang2, Y. Jin1; 1Plant and Soil Sciences, University of Delaware, Newark, DE, 2Mechanical engineering, University of Delaware, Newark, DE.

2:30 690. General principles of ternary phase separation into multilayered emulsions facilitate wide applications. M. F. Haase, J. Brujic; Physics, New York University, New York, NY.

2:50 691. Anisotropic slip over surfaces with sinusoidal roughness. L. Guo1, M. O. Robbins2; 1Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD, 2Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD.

196 197

Molecular Self-Assembly 8Wednesday, June 25, 2014, 1:30 PM - 3:10 PMCohen Terrace

Organizers: Dan Hammer, Darrin PochanPresider: K. Vargo

1:30 692. Metal chelated antioxidants create stable nanoparticles with applications in catalysis, PET imaging, and therapeutic iron delivery. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

1:50 693. Covalent coupling of silicon carbide whiskers to carbon fi bers for improved carbon/epoxy composites. E. Landis, Y. Chen, A. Tabakovic, B. Babcox, C. E. Bakis, J. H. Adair; The Pennsylvania State University, State College, PA.

2:10 694. The Role of Interfacial Interactions in the Development of Protein Therapeutics. J. Li1, S. Zheng1, S. Pinnamaneni1, Y. Quan1, A. Jaiswal2, X. Zhang3, F. Anderson2; 1Drug Product Science & Technology, Bristol-Myers Squibb, New Brunswick, NJ, 2Biolin Scientifi c Inc., Linthicum Heights, MD, 3Drug Product Science & Technology, Biolin Scientifi c Inc., Linthicum Heights, MD.


Wednesday, June 25, 2014, 1:30 PM - 3:10 PMIrvine Amado

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed GharbiPresider: J. Jeong

1:30 695. Phase Behavior of Experimentally Realizable Polyhedral Colloidal Particles. A. P. Gantapara1, J. de Graaf2, W. van der Stam3, G. Soligno4, C. de Mello Donega5, R. van Roij4, M. Dijkstra1; 1Physics, Soft Condensed Matter Group, Utrecht, NETHERLANDS, 2Physics, Institute for Computational Physics, Stuttgart, GERMANY, 3Physics, Debye Institute for Nanomaterials Science, Utrecht, NETHERLANDS, 4Physics, Institute for Theoretical Physics, Utrecht, NETHERLANDS, 5Physics, Condensed Matter and Interfaces, Utrecht, NETHERLANDS.

1:50 696. Controlling size and homogeneity of thiolate-protected sub-5nm silver nanoparticles by modifi ed digestive ripening process. Y. Liu, Y. J. Tong; Department of Chemistry, Georgetown University, Washington, DC.

2:10 697. Control of defect lines over long length scale with novel 3D structure. Y. Luo1, F. Serra1,2, M. A. Gharbi1,2, R. D. Kamien2, K. J. Stebe1; 1Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

2:30 698. Thermal sensitive discotic liquid crystals. Z. Cheng1,2, X. Wang1, A. Mejia1, H. Li2; 1TAMU, College Station, TX, 2Guangdong Provincial Key Laboratory of Functional Soft Matter, Guangdong University of Technology, Guangzhou, CHINA.

2:50 699. Toroidal droplets. E. Pairam, A. Fragkopoulos, J. Vallamkondu, P. Ellis, K. Nayani, A. Fernandez-Nieves; Physics, Georgia Tech, Atlanta, GA.

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198 199

Wetting and Adhesion 8: Wettability in Complex Soft Matter

Wednesday, June 25, 2014, 1:30 PM - 3:10 PMLevine Wu and Chen

Organizers: Shu Yang, Eric DufresnePresider: J. Singer

1:30 700. Direct write thermocapillary dewetting of polymer thin fi lms by a laser-induced thermal gradient. J. P. Singer1, P. Lin1, S. E. Kooi2, L. C. Kimerling1, J. Michel3, E. L. Thomas4; 1Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA, 2Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology, Cambridge, MA, 3Materials Processing Center, Massachusetts Institute of Technology, Cambridge, MA, 4Department of Mechanical Engineering and Materials Science, Rice University, Houston, TX.

1:50 701. Long time persistence of drops atop miscible simple or complex fl uid subphases. A. Z. Stetten1, T. E. Corcoran2, S. Garoff1, T. Przybycien3, R. D. Tilton3; 1Physics, Carnegie Mellon University, Pittsburgh, PA, 2Medicine, University of Pittsburgh, Pittsburgh, PA, 3Chemical Engineering and Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:10 702. Effect of electrostatic interactions and nanostructures on disjoining pressure of water on alumina surfaces. H. Hu, Y. Sun; Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA.

2:30 703. Wettability alternation of solids using nanofl uids. S. Lim, H. Horiuchi, A. D. Nikolov, D. T. Wasan; Chemical Engineering, Illinois Institute of Technology, Chicago, IL.

2:50 704. Infl uence of molecular solvation on the conformation of soft colloid. X. Li1, L. Porcar2, L. E. Sanchez-Diaz1, C. Do1, Y. Liu3, T. Kim4, G. S. Smith1, W. A. Hamilton1, K. Hong1, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 2Institut Laue-Langevin, Greenoble, FRANCE, 3University of Delaware, Newark, DE, 4Research Reactor Utilization Department, Korea Atomic Energy Research Institute, Daejeon, KOREA, REPUBLIC OF.

200 201

Biointerfaces 9: Amphiphile Monolayers

Wednesday, June 25, 2014, 3:40 PM - 5:20 PMHouston Class of ‘49

Organizers: Ravi Radakrishnan, Tobias BaumgartPresider: J. Swift

3:40 705. Effect of Lipid Monolayer Composition on Fluorocarbon Microbubble Condensation. M. A. Borden, P. Mountford; Mechanical Engineering, University of Colorado, Boulder, CO.

4:00 706. Studying lipid/protein interaction using phospholipid monolayers. M. Mirheydari1, S. Rathnayke2, S. Cocklin3, E. Mann1, E. Kooijman2; 1Physics, Kent State University, Kent, OH, 2BSCI, Kent State University, Kent, OH, 3Department of Biochemistry and Molecular Biology, Drexel University College of Medicine, Philadelphia, PA.

4:20 707. Effect of functional group on the monolayer structures of biodegradable quaternary ammonium surfactants. S. Ye1, A. Ge1, H. Wu1, Y. Tong1, T. Nishida1, M. Osawa1, K. Suzuki2, T. Sakai3; 1Catalysis Research Center, Hokkaido University, Sapporo, JAPAN, 2R&D - Fabric & Home Care Research, Kao Corporation, Wakayama, JAPAN, 3R&D - Eco-Innovation Research, Kao Corporation, Wakayama, JAPAN.

4:40 708. Linear and Nonlinear Microrheology of Lysozyme Layers Forming at the Air-Water Interface. D. B. Allan1, D. M. Firester1, S. P. Cardinali1, V. Allard1, D. H. Reich1, K. J. Stebe2, R. L. Leheny1; 1Physics and Astronomy, Johns Hopkins University, Baltimore, MD, 2Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

Colloidal and Surface Forces 9: ModelingWednesday, June 25, 2014, 3:40 PM - 5:20 PMCollege Hall 200

Organizers: Eric Furst, Ray DagastinePresider: J. J. McDermott

3:40 709. Molecular simulations of polymer-water interfaces in latex paint. Z. Li1, F. Yuan2, R. G. Larson2, K. Fichthorn1, S. T. Milner1; 1Department of Chemical Engineering, Pennsylvania State University, State College, PA, 2Department of Chemical Engineering, University of Michigan, Ann Arbor, MI.

4:00 710. Numerical Calculation of Interaction Force of 2-D Paramagnetic Particle System. D. Du1, F. Toffoletto2, S. L. Biswal1; 1Department of Chemical Engineering, Rice University, Houston, TX, 2Department of Physics and Astronomy, Rice University, Houston, TX.

4:20 711. Polarizable ion and colloid distributions near dielectric interfaces: A unifi ed treatment of thermal and quantum dispersion (van der Waals) forces. J. Palmeri1, M. Manghi2; 1Departement Physique Theorique, Laboratoire Charles Coulomb, CNRS-Universite Montpellier 2, Montpellier Cedex 5, FRANCE, 2Laboratoire de Physique Theorique, IRSAMC UMR CNRS-UPS 5152 Universite Toulouse, Toulouse, FRANCE.

4:40 712. Micro-biophysical processes shape bacterial distribution and dispersion on produce rough surfaces. G. Wang, V. Lazouskaya, T. Sun, W. Zheng, Y. Jin; Department of Plant and Soil Sciences, University of Delaware, Newark, DE.

5:00 713. Investigating the effects of membrane deformability on artifi cial capsule adhesion to the endothelium. H. Balsara1, R. Banton2, C. Eggleton1; 1Department of Mechanical Engineering, University of Maryland, Baltimore County, Baltimore, MD, 2U.S. Army Research Laboratory, Aberdeen Proving Ground, Aberdeen, MD.

202 203

Directed Assembly 9: Field-Assisted Assembly III

Wednesday, June 25, 2014, 3:40 PM - 5:20 PMMeyerson B1

Organizers: Cherie Kagan, Vinothan ManoharanPresider: Y. Shin

3:40 714. Kinetic control and switching of colloidal phase transitions by direct current electric fi eld-assisted assembly. J. A. Ferrar, M. J. Solomon; Chemical Engineering, University of Michigan, Ann Arbor, MI.

4:00 715. Ising Lattices of Asymmetric Colloidal Dimers under Electric Fields. f. ma1, s. wang1, h. zhao2, D. T. Wu3, N. Wu1; 1chemical and biological engineerning, colorado school of mines, golden, CO, 2Department of Mechanical Engineering, University of Nevada, Las Vegas, Las Vegas, NV, 3chemistry and geochemistry, colorado school of mines, golden, CO.

4:20 716. Anisotropic hypersonic phonon propagation in fi lms of aligned ellipsoids. P. J. Beltramo1, D. Schneider2, G. Fytas2,3, E. M. Furst1; 1Department of Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Max Planck Institute for Polymer Research, Mainz, GERMANY, 3Department of Materials Science, University of Crete and IESL-FORTH, Heraklion, GREECE.

4:40 717. Continuous Growth of Defect-Free Colloidal Crystals via Feedback Control. Y. YANG, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins University, baltimore, MD.

5:00 718. Size-dependent non-space fi lling atomic packing in metallic nanoparticles. V. Doan-Nguyen1, S. A. Kimber2, D. Pontoni2, D. C. Reifsnyder3, B. T. Diroll3, M. Miglierini4, X. Yang5, C. B. Murray1, S. J. Billinge5; 1Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 2European Synchrotron Radiation Facility, Grenoble, FRANCE, 3Chemistry, University of Pennsylvania, Philadelphia, PA, 4Electrical Engineering and Information Technology, Slovak University of Technology, Bratislava, SLOVAKIA, 5Applied Physics and Applied Mathematics, Columbia University, New York, NY.

204 205

Emulsions, Bubbles and Foams 9: Emulsion Synthesis Approaches

Wednesday, June 25, 2014, 3:40 PM - 5:20 PMDRL A1

Organizers: Doug Durian, Jasna BrujicPresider: K. Feitosa

3:40 719. COLLOID SURFACTANT AND EMUSLION STABILITY. S. Razavi, J. Ferdaous, I. Kretzschmar; Department of Chemical Engineering, City College of New York, New York, NY.

4:00 720. Characterization of sub-micron dispersions of high Mw polyolefi ns derived from a HIPE at high temperatures and pressures. D. Dermody, R. Lundgard, D. Malotky, M. Kalinowski, T. Young; Formulation Science, The Dow Chemical Company, Midland, MI.


4:40 722. Generation of complex emulsion induced by phase separation on the micromold. J. Nam, C. Choi, S. Kang, B. Lee, C. Lee; Chemical Engineering, Chungnam National University, Daejeon, KOREA, REPUBLIC OF.

General Papers 9: Electrochemistry and Ionic Liquids

Wednesday, June 25, 2014, 3:40 PM - 5:20 PMTowne Heilmeier

Organizers: Joelle Frechette, Mike BevanPresider: D. Lee

3:40 723. Ionothermal stability of mesoporous silica. J. H. Prosser, D. Lee; Chemical & Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

4:00 724. Activity enhancement of oxygen reduction reaction by sub-monolayer sulfi de adsorption on Pt nanoparticles. Y. Wang, Y. J. Tong*; Department of Chemistry, Georgetown University, Washtington, DC.

4:20 725. An enzyme-free hydrogen peroxide sensor from a zinc oxide multi-walled carbon nanotube hybrid. M. B. Wayu1, S. C. Das1, R. T. Spidle2, A. K. Wanekaya2, C. C. Chusuei1; 1Chemistry, Middle Tennessee State University, Murfreesboro, TN, 2Chemistry, Missouri State University, Springfi eld, MO.

4:40 726. Radio frequency magnetic permeability of ferrite nanocrystals. H. Yun1, D. Li1, X. Liu2, T. Paik1, D. Palanisamy2, J. Kim3, J. Chen2, W. D. Vogel4, A. J. Viescas4, G. C. Papaefthymiou4, J. M. Kikkawa5, M. G. Allen3, C. B. Murray1,2; 1Chemistry, University of Pennsylvania, Philadelphia, PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Electrical and Systems Engineering, University of Pennsylvania, Philadelphia, PA, 4Physics, Villanova University, Villanova, PA, 5Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

5:00 727. Fluid-driven synthesis of sheets from modifi ed cellulose and their assembly into naturally hydrophobic aerogel. S. A. Ahmed1, S. Roh1, S. D. Stoyanov2, O. D. Velev1; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Laboratory of Physical Chemistry and Colloid Science, Wageningen University, Wageningen, NETHERLANDS.

207

Abbo , N. L. ..................641Abdulbaki, M. .................87Abtahi, S. ........................40Acter, S. .........................272Adair, B. ........................246Adair, J. .................246, 281Adair, J. H. ..............15, 276, ...............................352, 693Adler, D. ........................375Adroher-Benítez, I. ........102Afsari, S. ........................142Agarwal, R. ....................390Agbangla, G. .................498Ahmed, N. K. .........289, 292Ahmed, S. A. .................727Akhter, M. .....................512Akpa, B. S. .....................587Alam, M. A. ...................168Albert, L. .......................662Albert, L. S. ...................663Ali, S. .............................684Allan, D. B. ............445, 708Allard, V. ........................708Allcock, H. .....................512Allcock, H. R. .................598Allen, B. ........................549Allen, M. G. ...................726Al-Rekabi, Z. ....................16Alsayed, A. ....................141Alsayed, A. M. ...............365Al-Shareef, A. ................650Al-Zaki, A. ......................598Amann, C. .....................154Amemiya, Y. ..................614Ampunan, V. .................542Anand, S. .......................223Andelman, D. ................239Andersen, M. B. ............183Anderson, A. J. ..............539Anderson, F. ..................694Anderson, J. ..................290Angelini, T. ....................585Angilè, F. E. ...................235Angiole -Uber , S. ......263Anna, S. .....................38, 57Anna, S. L. ................62, 63, .......................260, 429, 463Anseth, K. S. ..................645Antonny, B. ...................376Antozewski, S. ...............180Araujo, N. ......................146Argento, C. ....................311Arkles, B. .........................94Armes, S. P. ...........207, 392

Arra a, P. E. ...........56, 341, ..................... 504, 507, 623Arumugam, S. .................18Arya, C. .........................510Asa-Awuku, A. ..............611Ashbaugh, H. ........593, 633Ashkar, R. ................87, 351Athas, J. C. ............536, 601Atherton, T. ...................678Athirasala, A. ................644Audoly, B. ......................500Audus, D. ......................397Audus, D. J. ...................499Ayee, M. A. ...................587Ayyaswamy, P. S. ..........448, ...............................580, 643Babaee, Y. .....................194Babaye Khorasani, F. .....545Babcox, B. .......15, 281, 693Bacchin, P. .....................498Badami, J. V. ..................441Badre, C. .......................141Bae, W. ..........................321Baek, S. .........................613Bagheri, M. .....................16Bai, G. ...........................521Bai, P. ............................632Bailey, D. .........................43Bakis, C. E. .....................693Balasuriya, T. .................196Balavi, H. .........................82Ballauff , M. ...................495Balsara, H. .....................713Banton, R. .....................713Bao, H. ..........................418Barbastathis, G. ..............89Barros, M. .....................586Bartenstein, J. E. ...........591Bartholomew, F. R. ........566Bartolo, D. .........................6Basavaraj, M. ..........73, 189Basavaraj, M. G. .............71, .................................76, 174Baskaran, A. ......................4Basu, A. ...........................56Bau, H. H. ................58, 179Bauer, J. L. .....................525Baumgart, T. .........228, 250, .......................251, 303, 447Beasley, M. S. ................310Beavn, M. A. .................596Beddoes, C. M. .............354Beesabathuni, S. N. 37, 338Behrens, S. H. ..............100, ...............................119, 474

Author Index

208 209

Bell, M. S. ......................159Beller, D. A. ...................416Bellini, T. .......................570Beltramo, P. J. ...............716Beltran-Villegas, D. .......576Beltran-Villegas, D. J. ......81Benardo, B. ...................248Bengaluru Subramanyam, S. .......................................226Benson, B. R. .................375Ben Zion, M. .................561Berger, B. ......................196Beris, A. N. ....................568Berry, N. E. ....................599Berthier, L. ............202, 203Bertrand, C. E. .................79Bertrand, M. .................152Bevan, M. .........9, 112, 167, .......213, 277, 460, 671, 717Bevan, M. A. ...................41Beysens, D. ...................223Bhandari, N. ..................193Bhar , B. ..............164, 177, ...............................264, 526Bier, M. ...........................70Bihr, T. ...........................418Billinge, S. J. ..................718Billon, L. ........................370Binh, C. .........................383Bishop, K. J. ...........150, 402Biswal, S. L. ..................191, ............................. 649, 710Biswas, P. ......................192Bi er, J. L. .......................41Black, K. A. ......................10Blair, D. L. ......................427Blanco, E. ..............187, 490Bleier, B. J. .....................260Bocquet, L. ....................163Boehm, S. J. ..................273Boesze-Ba aglia, K. ......515Bohling, J. .......................18Bolin neanu, D. S. ........483Bolton, C. G. ..................387Boltyanskiy, R. .........36, 629Boluk, Y. ..........................82Bommarius, A. S. ..........100Bonaccurso, E. ..............654Bonzongo, J.-C. ..............683Borden, M. A. ......374, 537, ...............................581, 705Borguet, E. ............142, 484Borhan, A. .....................159Borkovec, M. .........282, 452Bothun, G. D. ..........26, 677

Bo o, L. ........................486Boufadel, M. C. .............612Bouwer, E. J. ..................382Bowick, M. ....................145Brader, J. .......................154Bradford, S. A. ...............658Bradley, R. .....................358Bradley, R. P. .................558Bradshaw, A. .................579Brady, J. F. .....................154Brandner, B. D. ......176, 432Breedveld, V. .................666Bricard, A. .........................6Briscoe, W. H. .........22, 354, ...............367, 556, 588, 591Bri , D. W. ....309, 539, 583Brown, A. C. ..................515Brown, A. L. ..................511Brown, D. ......................662Brown, D. G. ..................663Brown, E. ......................549Brown, Z. J. ...................262Browne, C. ....................364Bruce, K. L. ....................100Brugarolas, T. ..................58Brujic, J. ..................30, 690Bruot, N. .......................346Bugner, D. .....................176Buie, C. R. .....................461Burke, C. .......................678Burton, G. L. ..................427Buscaglia, M. ................570Bushman, Z. ..................352Butler, P. ..................87, 351Butler, P. J. .....................276Bu , H. ..........................433Bu , H.-J. ................51, 205Bu noni, I. ...................423Buxboim, A. ..................444Cacciuto, A. ...........263, 357Caggioni, M. ....................37Cai, J. .............348, 552, 562Calabrese, M. ..........85, 327Campbell, A. I. ..............438Cantor, R. S. ..................514Caporizzo, M. ................253Capraco a, S. ................231Capraro, B. R. ................228Cardinali, S. P. ...............708Cardoen, G. ...................475Cargnello, M. ................313Carpick, R. W. ................200Case, C. P. ......................354Cates, M. E. .......................2Caussin, J.-B. .....................6

Cerbino, R. ....................570Cerkez, E. B. ..................193Chaikin, P. ..............30, 145, ...............................161, 561Chaikin, P. M. ..................21Chakrabar , A. ......485, 503Chan, D. ................175, 592Chang, K. .......................228Chang, S. .......................319Chang, Y.-W. ..................585Charbonneau, P. ...478, 523Chatain, D. ....................429Chaudhuri, M. ...............133Chaudhury, M. K. ..485, 503Chavez, L. A. ....................17Cheheltani, R. .......512, 598Chen, B. G. ....................477Chen, D. T. .......................98Chen, D. ..........................75Chen, E. R. .............288, 292Chen, H.-Y. .....................651Chen, J. P. ......130, 195, 540Chen, J. .........................726Chen, K. ........379, 396, 411Chen, L. .................408, 654Chen, M. .......................305Chen, P. .........................212Chen, R. ........................299Chen, S. .........................440Chen, W.-R. ..........215, 361, .......................617, 665, 704Chen, Y. .........................693Chen, Z. .........................228Cheng, C.-H. ..................627Cheng, K. .......................293Cheng, S. .................65, 502Cheng, X. .......................551Cheng, Z. ...............325, 698Chernoff , Y. O. ...............100Chernyshova, I. .............389Chew, B. ......................607aChhour, P. .....248, 442, 509, .......................512, 598, 659Chiang, T.-Y. .....................50Chiappisi, L. ...................553Chieco, A. T. ..................125Chilko , A. ......................68Chirsan, A. M. ...............150Cho, J. ...................280, 335Cho, Y. ...........................450Choe, H. ........................431Choi, C.-H. ..............60, 158, .......................653, 656, 722Choi, H. ...........................89Choi, J. ..........................350

Choi, S. ..................280, 335Choi, S. Q. .....................173Chome e, C. .................217Chong, H. ........................14Chorny, M. ....................442Chou, J. ...........................58Chrisman, J. D. ................91Christ Doss Pushpam, S. ..............................................73Chris an, D. ..................579Chung, E. .......................542Chung, J.-H. ...................338Church, J. ......................320Chusuei, C. C. ................725Cicuta, P. .......................346Claesson, P. M. ......176, 572.............................. 591, 594Clar, J. G. .......................683Clarke, N. ......................255Clegg, P. ........................378Clegg, P. S. .....................602Clemmer, J. T. ..................53Climent, E. ....................498Close, T. .........................530Cocklin, S. .....................706Cohen, R. E. ....................89Colin, A. ........................664Collings, P. J. ..................147Colombo, J. ...................648Colón-Meléndez, L. .........81Composto, R. J. .....253, 255Conrad, J. ..............241, 545Cook, P. G. .....................658Cook, W. ........................176Cooley, B. ......................340Corcoran, T. E. ........49, 232, ...............................543, 701Córdova-Figueroa, U. M. ........................................... 505Cordovez, B. ..................630Cormode, D. C. ..............659Cormode, D. P. .....248, 442, ...............509, 511, 512, 598Cortes-Morales, A. ........632Cor , D. S. .....................388Cor , D. .........................521Cosgrove, T. ...........408, 682Coughlan, A. .................671Couzis, A. ......324, 529, 673Coyne, T. .......................180Crassous, J. J. ................181Cremer, P. ......................528Crespy, D. ......................205Crocker, J. C. ...........32, 113, .......................117, 398, 564

210 211

Crut, A. ..........................217Cubuk, E. .........................52Cui, D. ...........................229Cui, J. ......................88, 531Cur s, J. E. ....................165Cwalina, C. ....................548Dagas ne, R. ..........24, 175, .......................196, 364, 451Dagas ne, R. R. .....387, 592Dai, H.-L. ...............409, 661Dai, S. ..............................44Damasceno, P. F. ...........288Dani, A. .........................488Daniels, E. .....................322Dao, M. .........................424Dartnell, N. ...................496Das, C. ...........................107Das, S. ...........................528Das, S. C. .......................725Dauchot, O. .......................6Davidovitch, B. ..............143Davidson, S. M. .............183DeCamp, S. J. ..................95de Faria, A. F. ................381de Graaf, J. ....................695DeLacy, B. G. .................409de la Iglesia, P. ..............619Delassandro, J. ..............127Del Fa , N. ....................217Del Gado, E. .................178, ...............................201, 648Della Giovampaola, C. ..599de Mello Donega, C. .....695Demirörs, A. F. ..............524Denkov, N. .............123, 126Denkov, N. D. ...............316, ...............................517, 533Denn, M. M. ..................220Dennin, M. ......................35Dennis, P. ..............405, 584de Pablo, J. J. ...........10, 641DePaoli, D. ......................44Dermody, D. ..................720Derry, M. J. ....................207de Ruijter, C. H. .............681Desert, A. ..............217, 282de Silva, U. K. ........337, 615De Silva Indrasekara, A. .............................................114Desreumaux, N. ................6Devahif, T. .....................382DeVoe, D. ......................631De Vries, A. ...................635Dey, K. K. .......................528Dhong, C. ......199, 311, 501

Di, X. .............................426Diamant, H. ...................646DiAntonio, E. .................680Dias, C. ..........................146Dia a, J. ........................453Dick, S. ............................16Diegmiller, R. .................644Dietrich, S. ......................70Diget, J. S. .....................591Dijkstra, M. ...................695Dillon, P. J. .....................658Dimkpa, C. O. ................539Ding, Y. ..........................406Dingal, D. P. ...................444Dingal, P. P. ....................446Di Nicolò, E. ..................570Dinsmore, A. D. .......72, 143Diroll, B. ................257, 313Diroll, B. T. .............681, 718Discher, D. .....................579Discher, D. E. ................444, ...............................446, 644Do, C. ............617, 665, 704Doan-Nguyen, V. ..........252, ...............................390, 718Dodson, T. .............348, 552Dogic, Z. ..........................95Domach, M. ..................424Dominguez, H. ..............298Donahue, H. ..................352Dong, B. ........................111Donnio, B. .....................256Dorit, R. L. .....................230Douglas, J. .....................397Douglas, J. F. .................499Dove, J. .........................537Dowding, P. J. ................566Dowling, M. B. ..............373Drake, I. ........................471Drazenovic, J. ................541Drazer, G. ..............449, 494Drenckhan, W. ..............124Drews, A. M. .........150, 402Dreyfus, R. ............256, 394D’Souza, W. ...................582Du, X. ............................476Ducker, W. .....................660Duelge, K. ......................456Dufresne, E. ..................629Dufresne, E. R. .......36, 430, ...............................487, 560Duguet, E. .....................217Dugyala, V. ..............76, 174Duits, M. H. .....................86Dumetz, A. C. ..................11

Duncan, G. ................9, 167Duncan, G. A. ..................41Dunér, G. .......................209Dunn, C. ........................520Durian, D. ........................52Durian, D. J. .............56, 125du Roure, O. ....................84Dursch, T. J. ...................616Duval, K. A. ...................628Eales, A. D. ....................496Earhart, C. .....................630Eastoe, J. .......................675Ebbens, S. J. ..........148, 438Eckmann, D. M. ....253, 448, ...............................580, 643Edmond, K. V. ................569Edwards, T. ....................277Edwards, T. D. ...............596Egami, T. ........................665Egelhaaf, S. ...........154, 550Eggleton, C. ...................713Eibling, M. .....................253Elimelech, M. .........17, 380, ...............................381, 527Ellis, P. W. ......................317Ellis, P. ...........................699Emert, J. I. .....................668Engel, M. ...............288, 289Engheta, N. ...........115, 599Erickson, D. ...................197Ether, D. ........................285Evans, M. ......................134Even, R. C. .....................573Extrand, C. W. ...............434Eze, N. .............................31Ezzibdeh, R. M. .............512Fabris, L. ........................114Fagan, J. ................522, 567Fairbrother, D. H. ....41, 382Fairbrother, H. ..............385Fairhurst, D. ..................682Fakhraai, Z. ....64, 115, 138, .......................293, 294, 296Falus, P. ...........12, 647, 665Fameau, A. L. ................187Fameau, A.-L. ................177Fan, A. ...........................581Fang, J. ..........................139Fang, Y. ............................69Faraone, A. ......................87Fares, H. ........................680Faria, A. F. .......................17Farrell, Z. .......................520Fa accioli, J. .........171, 607Fauser, H. ......................234

Feitosa, K. .......................34Feng, G. .........................551Feng, L. ...........................30Feng, X. .........................527Ferdaous, J. ...................719Fernandez-Nieves, A. ...317, ......................318, 344, 431, .......................585, 669, 699Ferrar, J. A. ....................714Ferrari, V. A. .................248, ...............................509, 512Ferrier, R. C. ..................253Feshitan, J. A. ................374Fewkes, C. .......................24Fichthorn, K. .................709Fichthorn, K. A. .............159Fidan, O. .......................309Fielding, L. A. ........207, 392Fields, S. ........................677Findenegg, G. H. ...........164Firester, D. M. ...............708Fischer, P. ......................221Fischer, S. ........................16Flach, C. R. ....................108Flenner, E. .....................203Florea, D. ........................25Fol s, L. .........................680Forth, J. .........................378Fortner, J. D. ..................192Fourkas, J. .....................401Fowler, P. W. ..................392Fraden, S. ..........................8Fragkopoulos, A. ...........699Fragkopoulos, A. A. .......318Franey, D. G. ...................15Franses, E. I. ..................388Franses, E. .....................521Fra arelli, D. ...................18Freche e, J. .........199, 213, ...............300, 311, 449, 501Frecker, M. ....................281French, D. J. ..................602Frenkel, D. .............263, 339Fronk, T. ........................309Fu, L. .............................523Fuchs, M. ......................154Furlan, M. .....................672Furst, E. M. .............33, 153, ...............................525, 716Fytas, G. ........................716Gabi o, J. ........................44Gagnon, D. A. ................504Gaillard, J.-F. ..................383Gallo, N. ........................598Ganesan, M. .................349

212 213

Ganesan, N. ..................306Gang, O. ..........................29Gantapara, A. P. ............695Gao, D. ..........................375Gao, J. ...........................679Gao, S. ...........................611Gao, T. .............................97Gao, Y. ...........................151Garbin, V. ......................473Garboczi, E. J. ................499Gargava, A. ...................245Garoff , S. ........49, 209, 232, .......................429, 543, 701Garrido, K. .....................269Gasparu o, D. ...............253Gaulding, A. ..................257Gaulding, E. A. ..............313Ge, A. ............................707Ge, D. ..............................90Gehrels, E. W. ................437Geisel, K. .......................489Gerard, P. ......................370Gharbi, M. .....................413Gharbi, M. A. .......412, 416, ...............................640, 697Gharbi, M. .............638, 642Ghosh, M. .....................472Ghosh, S. .........................86Gianola, D. S. ................625Giasuddin, A. ................583Giavazzi, F. ....................570Gilchrist, J. ...........278, 322, ...............................366, 425Gillespie, D. .................637aGines, G. .......................253Glor, E. ..........................296Glor, E. C. ......................294Glotzer, S. ..............182, 292Glotzer, S. C. .........288, 289, ...............................290, 291Go, R. S. ........................382Godfrin, P. .....................647Godfrin, P. D. ...................12Goforth, A. M. ...............511Goh, C. ..........................508Goh, M. .........................323Göklen, K. E. ....................11Goldbart, P. ...................669Goldbart, P. M. ..............165Goldman, J. M. ..............544Golestanian, R. .....148, 346Gollub, J. P. ......................56Gonella, G. ............409, 661Goodrich, C. P. ......396, 620Goodwin, D. G. .............382

Goodwin, E. D. ..............681Gordon, T. R. .................454Gordon, V. .....................340Gorski, C. ......................122Gorte, R. J. ....................609Goulian, M. D. ...............445Govorov, A. ...................330Goyal, A. .......................103Grady, B. .......................472Gradzielski, M. ......368, 553Granick, S. .........................5Gratale, M. ....................667Gray, K. A. .....................383Green, D. .......................520Green, Y. .......................184Gregory, D. A. ................148Grest, G. S. ....................483Greybush, N. J. ..............599Grier, D. G. ....110, 603, 674Grieser, F. ......175, 364, 592Griffi ths, D. ...................231Grillo, I. .........................553Grogan, J. M. .................179Gross, A. .......................147Grzybowski, B. ..............524Guha, R. ........................185Guignard, F. ...................420Guillot, P. .......................664Guiney, L. ........................39Guo, H. ..........................152Guo, J. ...........................472Guo, L. ...........................691Guo, L.-H. ........................45Guo, S. ..........................651Gupta, A. .......................677Gupta, C. .......................464Gupta, R. .......................224Gupta, S. .......................219Guzman, F. J. .................612Ha, J. .............................431Haase, M. ........................30Haase, M. F. ..................690Habdas, P. .....................262Hadiputra, I. ..................451Hagan, M. F. ................4, 95Hagans, N. .......................34Hakimi, N. .....................627Hall, C. ..........................264Hallez, Y. ........................453Hamilton, W. A. .....665, 704Hammer, D. A. ..............235, ...............................436, 605Han, K. ..........................526Han, K.-B. ......................237Hanisch, M. ...................301

Hansson, P. M. ..............594Hao, Y. ...........................252Harada, T. ..............444, 579Harden, J. L. ............16, 152Hart, R. ..........................630Harwell, J. .....................472Harwood, D. ..................632Hashemipour, R. ...........439Hassan, A. M. ................499Hassouneh, W. ................68Has ng, S. P. .................115Haverkamp, R. ..............539Hazekamp, J. .................686He, J. .......80, 130, 401, 456He, K. ............................545He, L. .............................655HE, W. ...........................143Hecht, E. .......................442Heiney, P. ......................562Heinrich, F. ............514, 586Helgeson, M. E. .............151Hemminger, J. C. ...........470Hendricks, J. ..................550Heng, J. .........................247Henry, S. J. ....................605Hernandez, S. .................99Hersam, M. .....................39Herve, P. ........................365Heunemann, P. .............221Hilbert, J. ......................200Hoff mann, K. Q. ..............10Hogan, G. ......................262Hollingsworth, A. D. ......569Holt, A. L. ......................552Homsy, G. M. ..................37Hong, K. ..........12, 647, 704Hong, W. .........................72Honglawan, A. ..............416Hore, M. J. ....................253Horiuchi, H. ...................703Hoshino, T. ....................239Hosseinidoust, Z. ..........168Hou, C.-H. ......................610Hough, L. ..............141, 256, ...............................365, 394Houghton, P. A. .............224Hoy, R. S. .......................622Hrechka, V. ....................140Hsiao, L. C. ....................153Hsu, C.-J. .......................228Hu, D. L. ................344, 431Hu, H. ............................702Hu, Y. .............................236Hua, X. ..........................213Huang, D. ......................582

Huang, H. ......................510Huang, J.-Y. ....................157Huang, J. .......................230Huang, P. .......................440Huang, S. ...............204, 369Huang, X. ........................91Huang, Y. ..............331, 353, ...............................482, 625Hubert, C. .....................217Huck, W. T. ......................96Hudson, S. .....................397Hudson, S. D. ...12, 33, 109, .......................427, 499, 647Hughes, A. D. ................471Hui, C.-Y. ........................428Hunter, G. L. ..................476Huyghe, J. M. ..................25Hwang, D. .....................627Hwang, H. .....................398Iezzi, R. ..........................233Ignes-Mullol, J. ................99Ilg, P. .............................201In, M. ............................450Ioannidou, K. ................178Irianto, J. .......................644Irvine, W. ......................145Irvine, W. T. .....................21Isa, L. .............423, 487, 489Issadore, D. ...........325, 404Ivanovska, I. L. ..............444Iwanicki, M. ..................262Jacobi, I. ................155, 688Jacobson, T. W. ..............569Jagota, A. ......................428Jaiswal, A. .....................694Jakli, A. ..........................170Jalali, M. ........................343Jalali Mousavi, M. .........345James, C. .......................675Jang, A. .........................269Jang, K.-S. ......................332Jang, W.-S. .............436, 605Jankowska, K. I. .............251Javvaji, V. .......................439Jaykus, L.-A. ...................101Jelinek, R. ......169, 244, 595Jenkins, I. ......................113Jenkins, I. C. ............32, 117Jensen, K. E. ............36, 430Jeong, J. ........................147Ji, S. .................................20Jiang, Y. .........192, 653, 656Jin, Y. .....302, 478, 689, 712Jing, B. ..........................198Jo, A. .............................520

214 215

Jo, H. .............................350John, G. .........................637John, V. T. ......................536Johnson, V. ....................680Jones, C. W. ...................332Jones, K. J. .....................329Jones, R. ........................397Josey, B. ........................514Joshi, K. .........................278Joshi, Y. M. ....................218Joy, M. ...........................366Juarez, G. ......................657Jun, K. ...................536, 601Kade, M. .........................69Kade, M. J. ......................10Kagan, C. R. ...........599, 681Kalantar, T. ....................471Kalinowski, M. ..............720Kamien, R. .....412, 413, 642Kamien, R. D. ...............416, ...............................640, 697Kang, L. .........................559Kang, S. .........................269Kang, S.-M. ....................722Kappl, M. ......................433Kar, A. ..............50, 122, 185Kargar, M. .....................660Karimi, K. ................55, 395Karinshak, K. .................472Karnik, R. .......................399Kastrisianaki-Guyton, E. .............................................408Kasuya, M. ....................590Kaszuba, M. ..................274Kaufman, G. ..................629Kaxiras, E. ........................52Kazem, N. ......................417Ke, S.-C. .........................256Kea ng, C. D. ........261, 273Kea ng, C. .....................377Kegel, W. K. ...................216Keim, N. C. ............504, 623Keiser, G. .......................488Kelkar, A. .......................521Kelkar, A. V. ...................388Kelley, M. J. .....................43Kelly, J. ..........................383Kester, M. ......................276Khair, A. S. .....118, 120, 459Khan, I. ............................26Khan, S. A. .....................187Khanal, A. ......................543Khosla, T. .......................363Khosravi, H. ...................100Kibar, A. ........................158

Kiggans, J. .......................44Kikkawa, J. M. ...............726Kilmer, M. D. .................469Kim, B. ..........................541Kim, H. ..........................585Kim, H.-J. ...............332, 535Kim, J.-H. .......................338Kim, J. ..........151, 272, 280, ...............312, 334, 335, 726Kim, M. .........................233Kim, N. ..........................323Kim, S. ..................156, 326, .......................286, 312, 334Kim, S.-H. ......................132Kim, T.-H. .......................704Kim, Y. ...................321, 328Kim, Y.-H. .......................128Kim, Y.-J. ........................323Kim, Y. S. ...............132, 265Kimber, S. A. ..................718Kimerling, L. C. ..............700Kirby, S. M. ....................463Kishimoto, H. ................614Klapp, S. H. ....................264Klein, R. ...........................69Klein, R. A. ......................10Klitzing, R. v. ..................234Klotsa, D. ...............288, 289Klupp Taylor, R. .....301, 418Knapp, E. .......................458Ko, D.-K. ........................454Ko, J. ..............................325Kodger, T. ......................132Koenig, P. H. ..................634Kogler, F. .......................264Komura, S. ............105, 239Kong, T. .........................466Kooi, S. E. ......................700Kooijman, E. E. ..............170Kooijman, E. ..................706Koper, G. J. ....................635Koplik, J. ................210, 342Koppert, R. ....................686Koros, W. J. ...................332Koser, A. E. ............341, 507Kotar, J. .........................346Kotov, N. .......................330Kotula, A. ..................38, 57Kotulak, N. ....................305Koumakis, N. .................154Kovach, K. .....................340Koynov, K. ...............51, 205Kretzschmar, I. .......88, 149, ...............................210, 719Kreyes, A. ......................205

Krishnamoor , R. ....87, 545Krishnatreya, B. .............110Kubicki, J. D. ..................467Kubilius, M. B. .................67Kuijk, A. .........................686Kumar, A. ..............259, 436Kumar, M. .....................185Kumar, S. .......................407Kung, S.-C. .....................546Kunz, D. A. ....................116Kuo, C.-H. ........................69Kuo, C.-C. ........................35Kuo, Y.-C. .......................582Kurchan, J. ....................478Kurihara, K. ...................590Kwok, M. .......................188Kyburz, K. A. ..................645Ladshaw, A. .....................42Laguerre, M. .................258Lai, Y.-K. .................157, 574Lalanne-Aulet, D. ..........664Lally, E. T. .......................515Lam, S. ..................187, 234Lammers Wilking, K. .....127Lanauze, J. A. ................120Landfester, K. ................205Landis, E. .......................693Lane, J. A. ......................207Lane, M. D. ....................483Lanfranco, R. .................570Langevin, D. ..................124Lankone, R. ...................385Lanphere, J. ....................39Lapitsky, Y. ............331, 337, .......................353, 482, 615Larese-Casanova, P. ......129Larson, R. ......................347Larson, R. G. ....81, 634, 709Latsuzbaia, R. ................635La uada, M. .........420, 672Laura , M. ............154, 550Lavrentovich, O. D. ........414Law, B. M. .....................297Lawrence, P. G. .....331, 482Lazouskaya, V. .......302, 712Lee, B.-J. ........................722Lee, C.-S. .......................722Lee, D. ............58, 224, 235, ..............259, 268, 436, 491, .......551, 575, 605, 625, 723Lee, H. ...........156, 315, 326Lee, H.-S. .......................253Lee, H.-Y. ...............150, 402Lee, J. W. ...............324, 613Lee, J. ....................119, 268

Lee, K. Y. ........................516Lee, N. ...........................319Lee, S. ..................192, 271, ...............................314, 670Lee, S. S. ........................597Lee, W. ..........................179Legband, N. ...................374Leheny, R. .....................411Leheny, R. L. .................152, ...............................445, 708Leibowitz, N. .................184Lenhoff , A. ....................196Lennox, R. .....................415Leon, L. .....................10, 69Lesieutre, G. .................281Lesov, I. .........................533Leubner, I. H. .........283, 308Levitz, P. ........................178Lewis, G. .......................352Lewis, S. A. ....................150Li, C. ......115, 138, 296, 372Li, D. ..............................726Li, H. ..............................698Li, J. .......211, 471, 555, 694Li, L. ...............................371Li, M. .............................246Li, N. ......................251, 303Li, W. .............................192Li, X. .............324, 610, 617, .......................665, 673, 704Li, Y. ...............................456Li, Z. ......................484, 709Liebowitz, N. .................121Liel, U. ...........................121Lim, D.-K. .......................240Lim, P. .............................14Lim, S. ...........................703Lin, C.-C. ........................255Lin, F. .............................655Lin, J. .............................440Lin, L. ............................273Lin, P.-T. .........................700Lin, W. ...........................604LIN, Y.-C. ..................64, 138Lindberg, S. .....................37Lindner, A. .......................84Li , H. I. ................442, 511Liu, A. ....................136, 687Liu, A. J. ...........52, 396, 620Liu, C. ............................258Liu, I. B. .................144, 640Liu, L. ............................309Liu, P. .............................256Liu, Q. ...........................362Liu, T. .............138, 293, 296

216 217

Liu, X. ....236, 249, 379, 726Liu, Y. .... 12, 75, 79, 80, 401, ......................456, 617, 647, .......................665, 696, 704Liu, Z. ....................344, 466Loc, W. S. ......................276Loewenberg, M. ............629Lohr, M. .........................638Lone, S. .......................607aLopez, G. .......................523Lopez, G. P. ............526, 628Lopez-Barron, C. R. .......299Lösche, M. ............514, 586Lo izadeh, S. ................391Lounsbury, A. W. ...........129Lu, A. .....................439, 631Lu, C. .............................508Lu, Z. .............................456Lubensky, T. C. ......147, 559Lukes, J. R. .....................200Lundgard, R. ..................720Luo, Q. ..........................455Luo, Y. ....................412, 697Lupascu, A. ...................323Ly, D. Q. .........................208Lydon, M. E. ..................100Lyon, L. ..........................669Ma, F. ...................267, 279, ...............................532, 715Ma, J. ............................227Maass, C. ......................561Mack Correa, M. C. .......108Maestro, A. ...........124, 346Maggs, A. C. ..................396Magkiriadou, S. .............132Mahmoudi, S. ...............652Majee, A. ........................70Maje ch, S. A. ...............600Makatsoris, C. ...............208Malassis, L. ...................256Maldarelli, C. 342, 458, 488Malinenko, A. ................258Malone, B. ......................52Maloney, C. E. ................55, ...............................395, 417Malotky, D. ....................720Mandal, P. .......................46Manet, S. ......................415Manghi, M. ...................711Mangolini, F. .................200Mani, A. ........................183Mani, E. .....71, 73, 189, 421Manigandan, S. .............421Mann, E. K. .............46, 170Mann, E. .......................706

Mann, J. A. ......................46Manna, K. .......................18Manning, L. ...................624Manning, M. L. .................3Manning, M. .................135Manoharan, V. N. ...28, 116, .......................132, 210, 437Mansukhani, N. ..............39Mansy, S. .......................377Mao, G. .........................108Marcasuzaa, P. ..............370Marche , M. C. ................3Marcoux, C. ...................523Margossian, K. ................69Margossian, K. O. ............10Mari, R. .........................220Maroni, P. ......................452Marquez, S. ...................585Marson, R. ....................290Mar n, D. C. .................233Mar neau, N. ...............539Mar nez, J. ...................389Mar nez San ago, J. ....465Masliyah, J. ...................362Masoero, E. ...................178Ma sons, J. G. ................94Matsoukas, T. ................391Ma ers, G. ....................276Matyjaszewski, K. ..........519Maurini, C. ....................500Mayer, T. S. ....................273Mayes, R. ........................44Mays, B. ........................122McCaff erty, C. .......536, 601McClimon, J. .................200McCormick, A. ..............336McCreanor, A. .................48McDermo , J. J. ............668McDonald, B. ................304McGann, M. ..................274McGinley, J. ...................564McGinley, J. T. ................32, ...............................113, 117McGovern, C. O. ...........276McKenna, G. B. .............426McKinley, G. H. ...............89McLean, J. E. .................539Medina-Noyola, M. .......361Mehta, S. K. ..................410Meincke, T. ....................418Meireles, M. .................453Meissner, J. ...................164Mejia, A. .......................698Mendelsohn, R. ............108Menzel, C. .....................275

Meredith, J. C. ..............474Merger, D. .....................151Mertens, B. ...................101Meski, G. A. ..................224Metcalf, L. .....................411Me u, S. .......................451Meyerson, M. ...............254Michel, J. .......................700Miglierini, M. ................718Mihut, A. M. .................181Milam, V. .......................405Milam, V. T. .............31, 584Mile e, J. ......................415Millan, J. .......................291Miller, D. .......................641Milner, S. T. ...................709Min, Y. ...........................555Ming, W. ...............225, 571Mirheydari, M. ..............706Mitragotri, S. .................577Mi al, J. ................406, 618Mizukami, H. .................237Mizukami, M. ................590Mogne , B. M. .............263Molaei, M. ....................343Moncho-Jordá, A. .........102Montes Ruiz-Cabello, F. J. ..........................................452Moon, S. I. ....................434Moore, J. S. ...................471Moore, M. .....................101Mora, S. ........................500Morfesis, A. ...........231, 274Mornet, S. .....................217Morris, J. F. ............220, 613Morrison, I. D. ...............668Mosayebi, M. ................201Moun ord, P. ................705Moyle, T. M. ....................63Moyses, H. W. ...............110Mozaff ari, A. .................342Muangnapoh, T. ............366Mueller, A. H. ..................77Mugele, F. .......................86Mukhopadhyay, S. ........549Mulligan, C. ...................194Muluneh, M. .................325Munhall, J. ....................231Murphy, R. ............141, 256Murrary, C. B. ................598Murray, C. B. ........252, 390, ......................454, 457, 599, .......................681, 718, 726Murray, T. ......................537Musa, S. ..........................25

Mütze, A. ......................221Mwasame, P. M. ...........568Mykhaylyk, O. O. ...........392Nadermann, N. .............428Nagao, M. .....................351Nagel, S. ........................136Nagel, S. R. ....................620Naha, P. C. ....248, 442, 509, ...............511, 512, 598, 659Naik, R. .........................405Naik, R. R. .....................584Nair, P. ...........................579Nair, S. ...........................332Nallamilli, T. ............71, 189Nam, J.-O. .....................722Nam, Y. ..........................268Nandi, S. .......................169Nayani, K. ......................699Ndong, R. S. ..................679Neeson, M. ...................175Negi, A. .........................222Negro, E. .......................635Neja , S. ...................... 629Nelson, C. W. ..................62Nelson, D. .....................586Nery Azevedo, R. ..........186Neto, C. ...........................19Neto, P. .........................285Newberg, J. T. ...............468Newbloom, G. M. ........140, .......................................619Ng, H. ............................521Ngai, T. ..................188, 604Ngo, V. L. .......................640Nguyen, F. .....................616Nichol, J. L. ....................598Nie, Z. ............80, 254, 401, .......................440, 456, 601Niitsoo, O. .....................673Nijsse, J. ........................686Nikolov, A. D. ...........47, 703Nishida, T. .....................707Noel, A. .........................431Nordstrom, K. N. .............56Noro, M. .......................107Norton, M. M. .................58Nussenzveig, H. M. .......285Nystrøm, B. Ø. ..............591Oakey, J. ..........................61Oberdick, S. D. ..............600Oda, R. ..........................258O’Dea, C. .........................34Oh, H. ....103, 439, 481, 582Oh, S. ............................599Oh, T.-S. .........................609

218 219

Ohno, K. ........................255Oko, A. ..........................176Okoye, N. H. ..................337Olmsted, P. ....................107Olmsted, P. D. ...............106Oncsik, T. .......................282Opila, R. ........................305Or z, D. .........................291Osawa, M. .....................707Ostafi n, A. .....................237Osuji, C. .........................222Osuji, C. O. ...........204, 369, ...............................527, 629Oswald, P. .....................415Owoseni, O. ..................536Ozbay, R. .......................158Ozen Cansoy, E. ...............92Pacheco, M. ..................298Paik, T. ...390, 454, 598, 726Pairam, E. ..............318, 699Palacci, J. .......................161Palanisamy, D. ...............726Palmeri, J. .....................711Pan, L. ...........................111Pandit, K. R. ..................172Pansare, V. ....................443Pantano, D. ...................579Paolella, D. N. .................11Papadopoulos, P. ............51Papae hymiou, G. C. ....726Paretkar, D. ...................428Parisi, G. ........................478Park, C. ..........268, 333, 400Park, C. B. ......................212Park, H. .................312, 334Park, J. ...........................350Park, J.-G. ......................132Park, K.-C. ........................89Park, S. .................121, 184, ...............................436, 605Park, S.-J. .......................115Park, T. ..........................542Pascall, A. ......................186Patchornik, G. ...............547Patel, A. J. .....................554Patel, S. .................236, 306Pathak, J. A. ..................397Paus an, J. ....................186Payne, J. B. ....................382Pedu, S. .........................530Pelaez-Fernandez, M. ... 669Pellenq, R. .....................178Pelligra, C. I. ..........204, 369Peng, C.-C. .......................14Peng, X. .........................426

Peng, Y. .........................583Perera, T. .......................425Perez, M. T. ...................254Perrault, F. ......................17Perreault, F. ..........380, 381Perro-Marre, A. .............217Perry, S. ...........................69Perry, S. L. .......................10Pertreux, E. ...................217Pesika, N. ......................363Petekidis, G. ..................154Peters, C. J. ...................632Petersson, E. J. ................64Pfromm, P. H. ................297Philipse, A. ......................21Piacen ni, A. .................664Pick, C. M. .....................449Pierce, C. .........................69Pierce, C. F. .....................10Pilkington, G. A. ..............22Pincet, F. .......................376Pincus, P. A. ...................450Pine, D. .............21, 27, 161Pine, D. J. ..............419, 569Pinkerton, N. M. ...........375Pinnamaneni, S. ............694Pir-Cakmak, F. ...............261Pomeau, Y. ....................500Ponnurangam, S. ...........389Pontani, L.-L. ...................30Pontoni, D. ....................718Popov, P. ........................170Porcar, L. .......617, 665, 704Porrini, M. .....................258Poyton, M. ....................528Pozzo, L. D. ............140, 619Pramudita, R. ................321Pra , E. .........................579Prausnitz, J. M. ..............616Prevost, S. .....................553Priestley, R. ...................563Prieve, D. C. ..................118Pri is, D. ...................10, 69Primkulov, B. .................655Procar, L. .......................647Prosser, J. H. ..................723Pruden, A. .....................660Prud’homme, R. K. .........59, ..............375, 443, 480, 513, .......................518, 578, 692Prudhomme, R. .............563Przybycien, T. ..49, 232, 701Przybycien, T. M. ...209, 543Purohit, P. ...............66, 355Pustulka, S. ...................530

Qian, Z. .........................115Qin, J. ..............................10Quan, Y. .........................694Queeney, K. ..................230Queeney, K. T. ...............310Quennouz, N. ..................84Quignon, B. ...................588Raab, M. .......................446Radhakrishnan, R. ........356, .......358, 448, 558, 580, 643Radke, C. J. ..............14, 616Raghavan, S. .........582, 631Raghavan, S. R. ....103, 172, ..............180, 245, 373, 439, ...............481, 510, 536, 601Ragunathan, R. .............245Rahaman, M. ................194Rahmawan, Y. .................90Ramakrishnan, N. ........356, .......................358, 448, 558Ramakrishnan, S. ..152, 222Rannou, P. .....................253Ranville, J. .....................385Rathnayke, S. ................706Ravaine, S. ....................217Ravichandran, A. ...........144Ray, D. ...............................7Razavi, S. ...............210, 719Redmon, C. G. ...............222Redner, G. S. ...............4, 95Reeder, R. J. ..................193Reeves, M. ....................606Reich, D. ........................411Reich, D. H. ...................708Reichhardt, C. ...........7, 162Reichhardt, C. J. ........7, 162Reifsnyder, D. C. ............718Reilly, M. P. ............248, 509Reinhardt, A. .................339Relaix, S. .......................415Remijn, C. ......................686Remsing, R. C. ...............554Ren, B. ..........................149Reven, L. .......................415Rey, A. ...........................415Reyssat, M. ...................403Rezac, M. E. ..................297Rezvantalab, H. ............494, ...............................534, 565Richter, C. ......................530Richtering, W. ...............489Ricouvier, j. ...................403Riehm, D. ......................336Rieser, J. ..........................52Rieser, J. M. .....................56

Riggleman, R. ................137Riggleman, R. A. ............398Riley, J. K. ......................519Rio, E. ............................124Rivera, M. .....................298Robbins, M. O. ...............53, ...............................502, 691Roberts, C. J. ...................33Rodesney, C. .................340Rodriguez, P. .................579Rogers, S. ...............85, 219, ...............................327, 675Rogers, W. B. ..........28, 116, ...............................132, 437Roh, S. ...........................727Roichman, Y. .................646Rokowski, J. M. .............573Romero-Vargas Castrillón, S. .......................................380Romsted, L. S. .......258, 304Rosa, F. S. ......................285Ross, F. M. .....................179Rossi, L. ...........................21Rothman, J. ...................376Ro ler, J. .........................52Routh, A. .........................13Routh, A. F. .....48, 496, 566Rovner, J. B. ....................33Roy, A. .............................55Royer, J. R. .............427, 499Rubin, J. ........................100Rubinstein, M. ................68Ruff ner, D. B. .................674Rupp, B. ........................460Russell, S. T. ....................72Ruths, M. ......................589Ruzicka, B. .....................685Rykaczewski, K. .............223Ryoo, H. ........................268Ryoo, W. ........................321Ryoo, W. S. ............328, 333Saboktakin, M. ..............599Sacanna, S. ......21, 161, 569Sadafi , F.-Z. ....................418Saez, C. .........................510Safran, S. A. ...................450Sagues, F. ........................99Sakai, T. .........................707Salami, E. ......................293Salansky, K. .....................11Salerno, K. .....................483Salerno, K. M. .................53Salina, M. ......................570Salipante, P. F. ...............109Salonen, A. ....................124

220 221

Samudrala, N. ...............487Sanchez Diaz, L. E. ........215, .......................................361Sanchez-Diaz, L. E. .......665, .......................................704Sancho Oltra, N. ............579Sandler, S. I. ..................196Sarangapani, P. ..............397Sarfa , R. ..............430, 560Sarfa , R. S. .....................36Saric, A. .................263, 357Sarikhani, K. ..................212Sarkar, A. .......................580Sarshar, M. A. ........653, 656Sasidharan, S. ...............658Savaji, K. V. ....................529Save, M. ........................370Saven, J. G. ....................253Say, C. ............................230Schade, N. B. .................116Schaeff el, D. ..................205Schall, P. ........................621Schein, P. .......................197Schi auer, J. ........121, 184Schlossman, M. .......74, 608Schneider, D. .................716Schneider, J. W. .............544Schneider, N. M. ...........179Schoenholz, S. ...............396Schoenholz, S. S. .............52Schoonen, M. A. ...........127Schreiber, N. .................305Schulman, R. .................242Schultz, K. M. ................645Schurtenberger, P. .........181Scior no, F. ...................214Sedighi Moghaddam, M. ...........................................572Seeman, N. .............30, 561Sehgal, C. M. .................235Sells, T. ..........................616Sen, A. ...........................528Senbil, N. ......................143Sender, M. ....................677Sengupta, S. ..................528Sentjabrskaja, T. ............550Serra, F. .................412, 697Seto, R. ..........................220Sha, R. .....................30, 561Shapturenka, P. ...............88Sharick, S. .....................295Sharifi an, M. .................661Sharifi Mood, N. ...........342Sharifi -Mood, N. ...........144Sharma, K. ......................44

Sharma, R. ..............49, 190Sharma, S. .....................241Shaulsky, E. .....................17Shavit, A. .......................137Sheffi eld, J. B. ...............661Shelley, M. ......................84Shelton, C. ....................520Shemi, O. ........................78Shen, A. ...................37, 338Shen, B. .........................403Shen, C. .........................302Sheng, J. ................343, 445Shew, C.-Y. .....................215Shi, Z. ............................447Shields, C. W. ........526, 628Shifl e , M. B. ................679Shin, J.-W. ......................444Shin, S. ..........................150Shinohara, Y. .................614Shojaei-Zadeh, S. .........494, ...............................534, 565Shpaisman, H. ...............603Shum, A. .......................211Shum, H. .......................466Sides, P. J. ......................118Sidhu, G. .......................636Siepmann, J. ..................632Silvera Ba sta, C. ..........567Silvera Ba sta, C. A. ......683Sim, G. ..........................168Singer, J. P. ............369, 700Singh, M. .........................94Sinha, S. ........................236Sinha, S. K. ....................306Sinko, P. J. ......................375Sinno, T. ..........32, 113, 117Smith, A.-S. ...................418Smith, G. S. ..................617, ...............................665, 704Smoukov, S. ...................490Smoukov, S. K. ...............187Snyder, M. A. .........546, 618Socolar, J. ......................523Soligno, G. .....................695Solomon, M. J. .........78, 81, .......................153, 349, 714Somasundaran, P. ........389, .......................................465Son, H. ..........................268Song, K.-H. ....................581Song, M. .......................618Song, S. .........................319Song, Y. .........................211Soni, V. ............................21Sonn-Segev, A. ..............646

Sosa, C. .........................563Sosa, I. B. ......................382Soulé, E. ........................415Souslov, A. ............165, 669Spahr, C. ........................661Spellings, M. .................290Speranza, F. ...................556Sperling, M. ..................368Spicer, P. ........................678Spidle, R. T. ...................725Spies, I. .........................301Spinler, K. ......................579Spinler, K. R. ..................444Squires, T. M. ........186, 423Staff , R. ..........................205Stebe, K. ...............303, 343, .......................413, 638, 642Stebe, K. J. ...144, 224, 251, ......................412, 416, 445, .......................640, 697, 708Ste en, A. Z. .........232, 701Stevens, M. J. ..................65Stewart, E. J. .................349S ll, T. .............56, 394, 396Stocker, R. .....................657Stone, H. A. ...155, 375, 688Stout, R. F. .....................459Stoyanov, S. ...................517Stoyanov, S. D. ..............727Streator, J. .....................431Strickland, D. .................625Striolo, A. ......................492Strongin, D. R. .......127, 193Style, R. W. ..............36, 430Subramanyam, S. B. ......223Sullivan, R. ............405, 584Sun, D. ..........................628Sun, J. ..............................45Sun, T. ...................302, 712Sun, Y. ...........372, 676, 702Suruchi, S. .......................93Sussman, D. ..................136Su on, M. .....................415Suzuki, K. ......................707Swaminathan, S. ...........224Sweeney, A. .................348, ...............................552, 562Swerin, A. .............176, 432, ...............................572, 594Swi , J. ..................444, 644Szabo, T. ........................282Szamel, G. .....................203Szilagyi, I. ......................282Szleifer, I. ......................359Tabakovic, A. .................693

Tabeling, P. J. .................403Taboada-Serrano, P. .....530, .......................................610Tabor, R. ..........24, 175, 364Tabor, R. F. .....................592Takagi, C. .......................237Tan, C. C. .......................611Tan, H. ...........................604Tang, X. .........243, 246, 634Tapp, M. N. ...........405, 584Taylor, E. A. ...................352Tcholakova, S. ......123, 316, ...............................517, 533Tcholakova, S. S. ............126Tchoukov, P. ..................362Telo da Gama, M. ..........146Tennenbaum, M. J. .......344Terentjev, E. ..................479Terentjev, E. M. ...............23Terfl oth, G. J. ...................11Terry, B. .........................374Tewari, M. .....................444Thenuwara, A. ..............193Thiam, A. R. ..................629Thiam, A.-R. ..................376Thijssen, J. .....................606Thio, B. R. ......................611Thomas, E. L. .................700Thomas, R. K. ................556Thompson, R. P. ............212Thormann, E. ................594Thoroddsen, S. T. .........607aThutupalli, S. .................160Tian, Z. ..........................598Tierno, P. .........................99Tilton, R. D. ....49, 209, 232, .......................519, 543, 701Tirrell, M. ..................10, 69Toff ole o, F. ..................710Tong, P. ..........................651Tong, T. ..........................383Tong, Y. ..........................707Tong, Y. J. .........75, 696, 724Tongkhundam, J. ...........270Torkzaban, S. .................658Torquato, S. ...................394Torre, P. .........................377Tourdot, R. ....................358Tourdot, R. W. .......356, 558Tousley, M. E. ........381, 527Townsend, J. .........348, 552Tran, A. ...........................14Tran, M. Q. ....................573Trefalt, G. ..............282, 452Tréguer-Delapierre, M. .217

222 223

Tribe, L. .........................469Tsai, S. S. .......................627Tsouris, C. .........42, 44, 128Tsourkas, A. ...325, 442, 598Tu, F. ......................491, 605Tu, R. .......................67, 441Tucker, C. .......................471Tufenkji, N. ....................168Tunnacliff e, A. .................13Turner, K. T. ...................400Turner, N. W. .................583Tyagi, M. .........................87Uchida, N. .....................346Uhlig, M. .......................234Ulm, F.-J. .......................178Upadhyaya, N. ..............477Urbani, P. ......................478Vaccari, L. ..............343, 445Vakarelski I. U. ............607aValeriani, C. ...................263Vallamkondu, J. .............699Valle, R. P. .............238, 384Vallée, F. ........................217van Anders, G. .............289, ...............................291, 292van Blaaderen, A. ....96, 131van Dalen, G. ................686van der Stam, W. ...........695van de Ven, T. ................168van Duijneveldt, J. .......408, .......................................639van Hecke, M. ...............393Van Hooghten, R. ..........190van Ravensteijn, B. G. ...216van Roij, R. ....................695Varanasi, K. ...223, 226, 652Vargo, K. ........................235Veen, S. .........................686Velegol, D. .......50, 122, 185Velev, O. ........................368Velev, O. D. ...101, 177, 187, ..............234, 264, 490, 526, .......................535, 626, 727Velikov, K. P. .........166, 187, .......................490, 535, 686Vennemann, T. ..............586Venzmer, J. ....................654Vermant, J. ............190, 422Versluis, P. .....................686Vethamuthu, M. S. ........680Vidal, G. C. ....................505Viescas, A. J. ..................726Vikesland, P. ....................40Vilinska, A. ....................389Vinarov, Z. .....................517

Vinod, T. ................244, 595Vitelli, V. ........................477Vitoshkin, H. .................643Vogel, W. D. ...................726Vohs, J. M. ....................609Voigtmann, T. ................154Vollmer, D. ......................51Vuong, S. M. .................260Vutukuri, H. .....................96Wagner, N. ....................548Wagner, N. J. ....12, 85, 265, .......299, 327, 568, 647, 679Wåhlander, M. ..............594Wålinder, M. E. .............572Walker, L. ......................424Walker, L. M. ..........63, 120, ...............................260, 463Walker, S. ........................39Wallace, N. ....................462Walsh, P. .......................293Walters, R. M. ...............108Walz, J. Y. ........................20Wan, F. ............................16Wandlowski, T. ..............484Wanekaya, A. K. ............725Wang, A. ...............111, 210Wang, C. ...............110, 603Wang, D. .......................247Wang, G. ...............302, 712Wang, H. ...............474, 541Wang, J. ........................385Wang, L. ................362, 401Wang, L.-P. ....................689Wang, S. .......266, 267, 279, ...............347, 435, 493, 715Wang, W.-N. ..................192Wang, X. .......641, 654, 698Wang, Y. .................27, 300, ..................... 564, 651, 724Wanka, S. ......................433Ward, M. .......................271Ward, M. D. ..................597Wasan, D. T. ............47, 703Washburn, N. ................464Watson, M. .....................13Wayu, M. B. ..................725Weck, M. .........................27Wee, B. .........................611Weeks, E. R. ..................476Wei, W.-S. ......................638Wei, Z. ...........................678Weigandt, K. M. ............619Weigandt, K. ...................83Weik, B. .........................615Weitz, D. A. .......1, 133, 668

Weldon, A. ....278, 322, 366Wengatz, J. A. ...............337Wesner, J. C. ....................37We laufer, J. S. ...............36Wexler, J. S. ...........155, 688Whitaker, K. A. ..............153White, I. M. ...................172White, J. C. ....................373Whitmer, J. ....................641Whitmer, J. K. ..................10Widmer-Cooper, A. .......201Wijtmans, S. ..........135, 624Wilhelm, M. J. ...............661Williams, D. ...........247, 598Williamson, J. J. ....106, 134Wilson, B. K. ..................375Winey, K. I. ............255, 295Winter, H. H. .................495Witschey, W. .................442Woldemariam, M. M. ...404Wolkenhauer, M. ..........433Wong, D. ...................10, 69Wong, S. ........................508Woodka, A. ...................351Woolston, P. ..................639Wright, P. M. .................668Wu, B. ...........................665Wu, C. ...................360, 592Wu, D. ...........................267Wu, D. T. ................279, 715Wu, G. ...........................557Wu, H. ...................367, 707Wu, J. ............................474Wu, K. ...........................561Wu, N. ..........266, 267, 279, ...............435, 493, 532, 715Wu, T. ....................250, 384Wu, Y. ............257, 313, 661Wunder, S. ....................541Wyart, M. ........................54Wyss, H. M. .....................25Xi, A. ...............................26Xia, Y. ....................412, 413Xiong, R. ........................324Xu, B. .....................409, 661Xu, T. .............................466Xu, W. ..............60, 653, 656Xu, X. .............................428Xu, Y. ...............56, 394, 667Xu, Z. .....................362, 655Yamani, J. ......................129Yan, C. ...........................675Yan, J. ................................5Yan, T. ............................104Yang, E.-H. .......................60

Yang, L. ............................90Yang, S. ..........90, 412, 413, .......416, 557, 640, 642, 670Yang, X. .....3, 372, 676, 718Yang, Y. ....41, 277, 523, 717Yang, Y.-J. .......................521Yao, J. ..............................61Yao, L. ............................144Yaraghi, N. .....................481Yarlagadda, S. ...............666Yarzebinski, J. S. ..............46Ye, S. .............................707Ye, X. .............................599Yeates, S. G. ..................275Yeganeh, M. ..................488Yellen, B. .......................523Yeom, B. ........................330Yezer, B. A. ....................118Yi, G. .............................286Yi, G.-R. .........................116Yi, S. ..............................612Yiacoumi, S. ......42, 44, 128Yip, S. ............................178Yodh, A. .................394, 667Yodh, A. G. .............56, 147, ...............................396, 638Yoon, H. ................156, 326Yoon, R.-H. ............111, 227Yossifon, G. ...........121, 184Youn, S. .........................683Young, M. J. ..................297Young, T. .......................720Younger, J. G. ................349Yu, H. Y. .................448, 643Yu, L. .....................195, 540Yu, Y. .....................195, 540Yuan, F. ..................347, 709Yuen, F. ...........................13Yun, H. ..........................726Zaccone, A. .....23, 479, 495Zacharia, N. S. .................91Zaki, A. A. ......................442Zamponi, F. ...................478Zappone, B. ...................589Zarket, B. .......................601Zarket, B. C. ...................180Zazyczny, J. ......................94Zell, Z. A. .......................423Zeng, J. ..........................661Zeng, Y. ..........................535Zenk, J. ..........................242Zeravcic, Z. ....................437Zhang, A. .......................371Zhang, D. .......................551Zhang, H. ..........45, 47, 330

225224

Zhang, J. ....................5, 230Zhang, L. ...............551, 625Zhang, Q. ......................104Zhang, S. .......................252Zhang, W. ......................138Zhang, X. ..............104, 307, ............................. 362, 694Zhang, Y. ..........30, 90, 138, .......293, 296, 304, 429, 474Zhang, Z. .........................56Zhao, H. ...............267, 279, ...............................532, 715Zhao, J. ..........225, 571, 649Zhao, L. .........................612Zhao, Y. .........................205Zheng, S. .......................694Zheng, W. ......302, 689, 712Zheng, X. .........................27Zhong, X. ...............271, 597Zhou, Y. .........................365Zhu, C. ...........................228Zhu, H. ..................662, 663Zhu, X. ...........................521Zhu, Y. ...........................198Zhulina, E. .......................68Ziegler, K. J. ...................683Zimmerman, J. B. ..........129Zuo, Y. Y. ...............104, 238, ...............................307, 384

NOTES:

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