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![Page 1: Northern Virginia Energy Innovation Forum Dorene M. Price Office of Intellectual Property and Sponsored Research October 1, 2008.](https://reader030.fdocuments.net/reader030/viewer/2022032517/56649cc25503460f9498979c/html5/thumbnails/1.jpg)
Northern Virginia Energy Innovation Forum
Dorene M. Price
Office of Intellectual Property
and Sponsored Research
October 1, 2008
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October 1, 2008 2
Aerial View ofBrookhaven National Laboratory
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Energy Research Quick Picks fromBrookhaven National Laboratory
1. Electrochemically Enhanced Bioethanol Production
2. Fuel Cell Electrocatalysts
3. Aluminum Hydride Hydrogen Storage
4. Artificial Photosynthesis
5. BNL OIPSR (Office of Intellectual Property
and Sponsored Research)
October 1, 2008 3
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Electrochemically Enhanced Bioethanol Production
October 1, 2008 4
Provisional patent application filed April 7, 2008.
Bio-Ethanol: Enhancing Production via Electron Removal or BEEPER technology - the goal is to accelerate the production of bio-ethanol by modifying the fermentation step.
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Ethanol Production - Domestic Outlook
Source: EIA, http://www.eia.doe.gov/oiaf/forecasting.html
0.00
0.20
0.40
0.60
0.80
1.00
1.20
1.40
1.60
Year
Mill
ions
of B
arre
l per
Day
U.S. Ethanol Production
2 per. Mov. Avg. ( U.S. EthanolProduction)
October 1, 20085
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Reduction in Fossil Fuel Dependence
October 1, 20086
Source: “From Biomass to Biofuels”, NREL, www.nrel.gov/biomass/pdfs/39436.pdf
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Production Cost
October 1, 2008
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The Food v. Fuel Debate
October 1, 20088
Editorial Responses to April 7, 2008 TIME article, “The Clean Energy Myth”
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COMPETITIVE ADVANTAGE
Technology for making ethanol already exists but has not been developed to the point that it is economically competitive
with gasoline.
The cost of E85 is reported to be, in July, 2007, $2.62 per gallon ($3.71 to get energy equivalent of a gallon of gasoline) versus $3.03 for gasoline.
It is projected that about 60 billion gallons per year of EtOH will be needed to meet 30 by 30 goal set by Congress (there is also a 20 in 10 initiative)
Either now or in the future, the fermentation process can be modulated to accelerate ethanol production.
This technology is applicable to any advancement using microbes to produce ethanol and other metabolites.
In addition, the electricity generated by the process can be recycled back into the process or the facility thereby further cutting the cost of production.
October 1, 20089
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1. Electrochemically Enhanced Bioethanol Production
2. Fuel Cell Electrocatalysts
3. Aluminum Hydride Hydrogen Storage
4. Artificial Photosynthesis
5. BNL OIPSR (Office of Intellectual Property
and Sponsored Research)
October 1, 2008 10
Energy Research Quick Picks fromBrookhaven National Laboratory
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Brookhaven National LaboratoryFuel Cell Electrocatalysts
October 1, 2008 11
The best fuel cell catalysts on the market use nearly bulk platinum, that peaked around $2000/troy oz.
• Merely making Pt nanoparticles has not improved the mass catalytic activity of catalyst-bearing electrodes.
Using Pt monolayers on ruthenium substrates as anodes, and Pt monolayers on palladium nanoparticles as cathodes, a BNL PI has been able to increase the mass catalytic activity for fuel cells by up to 20 times over Pt/C catalysts.
The overall value of the project for the fuel cell market alone is estimated to be $2 to $20 million.
• Platinum is also used in many other catalytic reactions.
Pt
Ru
Pt Pd
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1. Electrochemically Enhanced Bioethanol Production
2. Fuel Cell Electrocatalysts
3. Aluminum Hydride Hydrogen Storage
4. Artificial Photosynthesis
5. BNL OIPSR (Office of Intellectual Property
and Sponsored Research)
October 1, 2008 12
Energy Research Quick Picks fromBrookhaven National Laboratory
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Brookhaven National LaboratoryAluminum Hydride Hydrogen Storage
Offers a means for practical room temperature
hydrogen desorption from aluminum hydride.
Uses activated aluminum hydride (AlH3) to
control and efficiently store hydrogen gas for
vehicles and other applications at low
temperatures including RT and with acceptable
gravimetric H-capacity (e.g., around 6 wt.%
H).
Decomposition of aluminum hydride particles
is metallurgically stimulated by mixing in
small levels of dopants (e.g., LiH, NaH,
LiAlH4, and others) to react with the aluminum
hydride particles.
October 1, 2008 13
SEM micrographs of α AlH3 prepared by DOW Chem. Co. showing large cuboids 50-100 microns in diameter. (below) crystal structure of α-AlH3 (R-3c) showing the H atoms in an octahedral coordination around the Al.
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Brookhaven National LaboratoryAluminum Hydride Hydrogen Storage
Further developments:
To prepare aluminum hydride. Samples used were an alpha
trigonal/rhombohedral version made by Dow Chemical in 1975 from LiAlH4 and
AlCl3 by a wet (ether solvent) chemical process;
To optimize the dopants; and
To develop offboard techniques for rehydriding spent Al back to AlH3.
Rehydriding is a term that is being used by BNL researchers to characterize the
process of regenerating aluminum hydride from spent Al.
October 1, 2008 14
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1. Electrochemically Enhanced Bioethanol Production
2. Fuel Cell Electrocatalysts
3. Aluminum Hydride Hydrogen Storage
4. Artificial Photosynthesis
5. BNL OIPSR (Office of Intellectual Property
and Sponsored Research)
October 1, 2008 15
Energy Research Quick Picks fromBrookhaven National Laboratory
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Brookhaven National LaboratoryArtificial Photosynthesis
Catalyzing O2 Production from Water-
studying ruthenium complex with bound quinone molecules that can drive the conversion of water into oxygen, protons, and electrons; ruthenium holds water molecules in place to make oxygen while the protons and electrons are transferred among the molecules and the catalyst, providing the charges necessary to continue the photosynthesis process.
Building a Bio-inspired Catalytic Cycle for Fuel Production –
using a ruthenium-based complex for a functional model this artificial complex has been shown to work similar to NADP+/NADPH coenzyme that cycles back and forth picking up a proton and 2 electrons and depositing them for use in the eventual production of carbohydrates.
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Water oxidation by Ru dinuclear complexes and cobalt hydrous oxide
Sunlight absorption by BGNSCs and metal complexes
CO2 and proton reduction by photogenerated hydrides
(and/or hydrogenase model complexes)
Photogeneration of NADPH-model complexes
Artificial Photosynthesis Studies at BNL
http://photoscience.la.asu.edu
October 1, 200817
17
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Proposed catalytic pathway for H2O oxidation by [Ru2(Q)(btpyan)]4+, the oxidized form of the catalyst.
(Listed for each species is the O-O distance and the Ru-C-Ru angle, where the C atom is at the top center of the anthracene moiety. )
First, two water molecules or two hydroxide ions bind to vacant coordination sites to form the “far” singlet dihydroxo species with an O-O distance of 4.527 Å. This species has a barrier comparable to kBT to form the “near” singlet, hydrogen-bonded species of the same composition. This “near” singlet species is likely the species isolated and characterized by Tanaka’s group.
Upon geometric distortion of this species along a proton dissociation coordinate, the system likely crosses over to a triplet manifold for the remainder of the catalytic cycle. All of the triplet species shown are considerably more stable than the corresponding singlets. It is likely that all four protons are removed before the catalyst/water moiety complex is externally oxidized.
Accompanying proton removal, electron transfer occurs from the bound water moieties to the quinone ligands as indicated. The involvement of the final 4+ O2-bound intermediate is unlikely.
October 1, 2008
18
Inorganic Chemistry, Vol. 47, No. 6, 2008
Brookhaven National LaboratoryArtificial Photosynthesis
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Photoelectrolysis cell with a BGNSC photoanode (red) and a catalyst (purple) at the anode surface. A small bias potential may be required in some cases to produce H2 at a cathode electrode with a
catalyst (pink).
Photocatalysis Research in the BNL AP Group
http://photoscience.la.asu.edu Fe
CO
CO
CN
CN
CO
S
1
H
H
FeS
S
N
2
2+
NiPPP
P
3
2+
NiPPP
P N
N
4
2+
NiPPP
P N
NH
H
NADPH Fe hydrogenase
AP
•Energy is required to drive reactions of these molecules uphill to generate fuels• Solar energy is the most abundant source of energy for such use
October 1, 200819
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1. Electrochemically Enhanced Bioethanol Production
2. Fuel Cell Electrocatalysts
3. Aluminum Hydride Hydrogen Storage
4. Artificial Photosynthesis
5. BNL OIPSR (Office of Intellectual Property
and Sponsored Research)
October 1, 2008 20
Energy Research Quick Picks fromBrookhaven National Laboratory
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Technology Transfer MechanismsBrookhaven National Laboratory
What is the Role of Tech Transfer?• Technology Licensing for laboratory inventions that
demonstrate a commercial potential; involves obtaining patents for those inventions and seeking licensees that demonstrate commercialization capability.
• Work for Others (WFO) provides a tool for performing research and development at BNL.
• Collaborative Research and Development Agreements (CRADAs) provides a means for industry to benefit from the vast scientific and technological capabilities at BNL.
• Proprietary and Non-Proprietary Research at BNL User Facilities provide experimenters from around the world an opportunity to conduct outstanding science.
October 1, 2008
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Research Facilities at BNL
Center for Functional Nanomaterials
Positron Emission Tomography Facility
National Synchrotron Light Source-II
STAR detector at RHIC
NASA Space Radiation Laboratory
Molecular Beam Epitaxy oxide system
Transmission Electron Microscopy
Facility
October 1, 200822
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October 1, 2008 23
Office of Intellectual Property & Sponsored Research
(OIPSR) Staff
Maria Pacella
Dorene Price
Christine Brakel
Lori-Anne Neiger
Maria Pacella
Cyrena Condemi
Kimberley Elcess
Mike Furey Alison Schwarz
Ginny Coccorese
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1. Electrochemically Enhanced Bioethanol Production
Dorene Price 2. Fuel Cell Electrocatalysts
Kimberley Elcess 3. Aluminum Hydride Hydrogen Storage
Dorene Price 4. Artificial Photosynthesis
Dorene Price
October 1, 2008 24
Energy Research Quick Picks fromBrookhaven National Laboratory
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October 1, 200825
Sponsored Research
Michael Furey –Manager, Research [email protected]
www.bnl.gov/techxfer
Thank-youAny Questions??
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October 1, 2008 26
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Technology Transfer Mechanisms
How Can BNL Facilities Work for You?• Proprietary and Non-Proprietary Research at
BNL User Facilities - contract for use by research teams from industry, university or non-profit of a BNL Designated User Facility
• Collaborative Research and Development Agreements (CRADAs) - contract for collaborative research projects with industry that may be cost-shared or fully funded by industry
• Technology Licensing
October 1, 2008 27
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TECHNOLOGY TRANSFER PROGRAMBROOKHAVEN NATIONAL LABORATORY (cont.)
WORK FOR OTHERS
Non-federal sponsorscontract for research performed by BNL research staff which is fully funded by a utility, university, hospital, state or local government, or non-profit and which utilizes unique BNL expertise
Other federal agenciesresearch performed by BNL research staff on behalf of and fully funded by another federal agency, such as DARPA, NIH, NASA. Research performed under an inter-agency agreement between DOE and the other federal agency.
October 1, 2008 28
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User Facilities at Brookhaven National Laboratory
National Synchrotron Light Source (NSLS) Alternating Gradient Synchrotron (AGS) Scanning Transmission Electron
Microscope (STEM) Tandem Van de Graff (Tandem) Relativistic Heavy Ion Collider (RHIC) Center for Functional Nanomaterials
October 1, 2008 29
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CRADA (Cooperative Research and
Development Agreement)
Industry partner’s proprietary information is protected
“Protected CRADA Information”• Results/data generated in the course of the project• Protected from public release for up to five years
Patent and Data Rights are negotiated• Partner gets first option to license “Subject Inventions”• Option period is negotiated• Data can be withheld from public release
October 1, 2008 30
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Cooperative Research and DevelopmentAgreements (CRADA)
Brookhaven’s costs can be funded by funds from DOE, licensing income, the industry participant, or any combination of these
BNL contributions can include:• Facilities, instruments, materials, people • No funds-out to partner
Partner contributions can include:• Funds to Brookhaven, facilities, instruments, materials,
people Research usually conducted at both BNL and participant’s
facilities Exchange of results
October 1, 2008 31
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TECHNOLOGY LICENSING
obtain patent protection on BSA inventions developed at BNL with commercial applications
license patents covering BSA developed inventions to industry to foster commercialization
licenses can be exclusive, for a specific field of use, or for a specific geographical area
potential licensee must present plans for commercialization
more than 100 technologies are in BSA’s licensing portfolio; includes molecular biology, medical devices, pharmaceuticals, optics, instrumentation, environmental remediation, and energy production
October 1, 2008 32
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US ethanol market revenue forecast, 2006-2012 Year Revenue ($ billion)
2006 - 22.1 2007 - 24.4 2008 - 26.3 2009 - 31.6 2010 - 34.9 2011 - 35.7 2012 - 39.3
Source: BioWorld Research Published in: The Biofuels Market Outlook
© Business Insights Limited, 2007
October 1, 200833
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PEM Drivers and Resistors
From: The Outlook For Fuel Cells To 2010. Source: Authors research & analysis© Business Insights Limited, 2002
October 1, 200834