GRADUATE COURSE DETAILS -...
Transcript of GRADUATE COURSE DETAILS -...
GRADUATE COURSE DETAILS
Course Title: Coordination Chemistry I Code : FKM 5101 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This course will focus on the basic concepts and affects on the formations and properties of coordination complexes. It is expected that students will read the textbook and work the problems as appropriate to augment the material presented in class.
Learning Outcomes and Competences
The purpose of the course is to teach the fundamental principles of coordination chemistry and various ways of thinking in inorganic research field.
Textbook and /or References
Advanced Inorganic Chemistry, F.Albert Cotton et al, Wiley-Interscience Inorganic Chemistry: Principles of Structure and Reactivity, J.E.Huheey, Prentice Hall Comprehensive Coordination Chemistry, G.W.Wilkinson FRS et al, ElsevierAnorganik kimya, Prof. Dr. Namık Kemal Tunalı ve , Prof. Dr. Saim Özkar, Gazi Kitabevi, Ankara 2005, Inorganic Chemistry, Keith F. Purcell, John Kotz,
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 20 Term Paper
Term Paper (Projects,reports, ….)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Historical development of coordination chemistry Properties of coordination compounds Verner’s Coordination Theory Nomenclature in coordination chemistry Bonding and structure in coordination compounds Bonding by electron-pairing Effective atom number Valance Bond Theory (VBT) Crystal Field Theory (CFT) Molecular Orbital Theory (MOT) Comparing of bonding theories Experimental methods in coordination chemistry Fundamentals of general spectroscopy Fundamentals of general spectroscopy continued
Instructors Doç. Dr. Figen Kurtuluş, Yrd. Doç.Dr. Çiğdem Hopa
e-mail [email protected]; [email protected];
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: ADVANCED INORGANIC CHEMISTRY I
Code : FKM 5102 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the atoms and molecular structures and bonds in advanced level.
Learning Outcomes and Competences
Ability to discuss the atomic and molecular structures and also molecular bonds with the MO theory.
Textbook and /or References
Inorganic Chemistry, Shriver &Atkins, Oxford pres. Inorganic Chemistry, Purcell&Kotz Anorganik Kimya, Saim Özkar, Gazi Publ.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Atomic Structure: The origins of elements and classifications Atomic structure of hydrogen and hydrogen like other atoms Principles of quantum chemistry, atomic orbitals, structure of many electron atoms Term Symbols, Slater rule Molecular structures, electron pair bonds, Lewis’s dot structure MO theory of the diatomic molecules MO theory of the heteronuclear molecules Properties of the covalent bonds MO theory of the polynuclear molecules MO theory for the solid materials Conductors, semiconductors Insulators Superconductors Molecular symmetry and chemical applications
Instructors Prof. Dr. Halil GÜLER, Assoc. Prof. Dr. Figen KURTULUŞ
e-mail [email protected], [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: CHEMICAL KINETICS Code : FKM5105 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autmun Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
The determination of the rate equations and reaction orders of chemical reactions occuring in different phases; the explanation of reaction mechanisms; catalysis; polimerization kinetics; the determination of reaction order from the experimental data.
Learning Outcomes and Competencies
The learning of difference between the research subjects of chemical kinetics and thermodynamics; the difference between molecularity and order; the determination of reaction order from experimental data; the parameters affecting the reaction rate.
Textbooks and /or References
Pilling and Seaking, Reaction Kinetics, Oxford Science Publications, 1999; Wright, An Introduction to Chemical Kinetics, Wiley, 2004; Laidler and Meiser, Physical Chemistry, Houghton Mifflin, 1999; Keith J. Laidler, Chemical Kinetics; Octave Levenspiel, Chemical Reaction Engineering, Wiley Inc., 1999.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 The rates of chemical reactions 2 Experimental techniques 3 Rate laws 4 Reactions approaching equilibrium 5 The temperature dependence of reaction rates 6 Elementary reactions 7 Consecutive elementary reactions 8 Unimolecular reactions 9 The kinetics of complex reactions 10 Chain reactions: the structure of chain reactions, explosions, photochemical reactions 11 Polymerization kinetics: chain polymerization, stepwise polymerization 12 Catalysis and Oscillation: homogeneous catalysis, autocatalysis, oscillating reactions, chemical
chaos. 13 The analysis of experimental data 14 Problems and their solutions
Instructor/s Prof.Dr. Mahir ALKAN, Prof.Dr. Mehmet DOĞAN , Assosiate Prof.Dr.Yasemin TURHAN
e-mail [email protected], [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: Advanced Organic Reactions I Code : FKM 5106 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Laboratuary Project/
Field Study Hw. Other Total Credit
T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester 1 Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding mechanisms of nucleophilic and electrophilic substitution reactions at saturated / unsaturated carbon and elimination reactions.
Learning Outcomes and Competences
1)Recognise and examine to organic reaction mechanisms 2)Examine of Subclasses of organic reaction mechanisms 3) Investigation of different behaviors at saturated and unsaturated systems 4) Learning to controllating factors to organic reaction mechanisms
Textbook and /or References
Organik Tepkimeler (Tahsin Uyar, Ankara üniversitesi Fen fakültesi), Advanced Organic Chemistry ( Francis A.Carey, University of Virginia), Organic Chemistry (Donald J.Cram, University of California
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Nucleophilic substituon at saturated carbon Types of Nucleophilic substituon at saturated carbon Field of Nucleophilic substituon at saturated carbon Mechanism of Nucleophilic substituon at saturated carbon Nucleophilic addition at saturated carbon Elimination reactions Types of Elimination reactions Affecting factors to elimination reactions Nucleophilic substituon at unsaturated carbon Examples of Nucleophilic substituon at unsaturated carbon Electrophilic and related addition at unsaturated carbon Mechanism of Electrophilic addition at unsaturated carbon Electrophilic substituon at unsaturated carbon. Examples of Electrophilic substituon at unsaturated carbon
Instructors Prof.Dr.Ümit ÇAKIR
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Special Topics in Organic Chemistry I
Code : FKM 5107 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester 1 Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding basics of physical organic chemistry, 13
C NMR spectroscopy and application, mass spectroscopy and application, polymer chemistry, orbital symmetry-controlled reactions and transition organometallic compounds
Learning Outcomes and Competences
1)Understanding of physical organic chemistry 2)Learning and interpretation of
13C NMR and mass spectrums
3)Learning to polimeric compounds and synthesis 4)Investigation of orbital symmetry-controlled reactions 5) Writing to Reactions of transition organometallic compounds
Textbook and /or References
A guidebook to mechanism in organic chemistry (Peter Sykes, Christ’s college,Cambridge), Advanced Organic Chemistry ( Francis A.Carey, University of Virginia), Organic Chemistry (Donald J.Cram, University of California)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Basics of physical organic chemistry Application fields of physical organic chemistry Introduction to
13C NMR spectroscopy
13C NMR spectroscopy and their applications.
Basics of mass spectroscopy Applications of mass spectroscopy Introduction to polymer chemistry Applications of polymer chemistry Different aspects of nucleophilic substitution reactions Concept of orbital Introduction to orbital symmetry-controlled reactions Orbital symmetry-controlled reactions Transition organometallic compounds Reactions of transition organometallic compounds
Instructors Prof.Dr.Ümit ÇAKIR
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: ADVANCED ANALYTICAL CHEMISTRY I
Code : FKM 5108 Institute: SCIENCE Field: CHEMİSTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autum Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
To introduce of analytical chemistry and chemical analysis, to teach statistical data treatment and evaluation, to teach basic concepts in solution chemistry and to introduce fundamentals and instruments of electrochemical techniques
Learning Outcomes and Competencies
Students who complete this course should; -be able to statistical data treatment and evaluation -to learn basic concepts in solution chemistry -to learn systematic approach for solution problems -to learn fundamental concepts and theories of electrochemical tecniques -to understand basic components, working principle and methodology of electrochemical devices
Textbooks and /or References
1-Fundamentals of Analytical Chemistry, Eight edition Skoog, West Holler and Crouch, Thomson, Brooks/Cole, 2004. 2-Analitik Kimya, H. Tural, Ege Üniversitesi Fen Fakültesi Yayınları No:140 2004 3. Baskı. 3-Quantitative Chemical Analysis, D.C.Harris, 7.th Edition 2007 W.H.Freeman and Company,NY
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Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Statistical data treatment and evaluation, Statistical data treatment and evaluation, Aqueous solutions and chemical equilibria, Acid-base equilibria and titrations, Acid-base equilibria and titrations, Precipitation-dissolution equilibria and precipitation titrations, Precipitation-dissolution equilibria and precipitation titrations, Gravimetry, Complexation reactions and titrations, Complexation reactions and titrations Oxidation and reduction reactions and titrations, Oxidation and reduction reactions and titrations Electrochemical techniques Electrochemical techniques
Instructor/s Prof.Dr.Nuri Nakiboğlu
e-mail [email protected]
Website http://kimya.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: CHEMICAL THERMODYNAMICS
Code : FKM5109 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autmun Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
The understanding of thermodynamic laws; systems; adibatic and isothermal phenomena; thermochemistry; Gibbs and Gibbs-Helmhotz equations.
Learning Outcomes and Competencies
The comprehending of thermodynamic laws; the calculation of heat, work, internal energy, enthalpy for chemical reactions occuring under different conditions; the determination of heat capacities.
Textbooks and /or References
Laidler and Meiser, Physical Chemistry, Houghton Mifflin, 1999; Atkins, Physical chemistry, Oxford, 1998.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 The basic concepts: work, heat and energy 2 The zero and first laws of thermodynamics 3 Work and heat: expansion work, heat transactions, enthalpy, adiabatic changes 4 Thermochemistry: standart enthalpy changes, standart enthalpies of formation 5 Temperature dependence of reaction enthalpies 6 State functions and exact differentials 7 Calorimetry bombs 8 The second law 9 The direction of spontaneous change: free energy, enthalpy and entropy changes 10 Combining the first and second laws: internal energy, Gibbs energy, the chemical potential of a
pure substance. 11 the third law of thermodynamics, reaching very low temperatures 12 Concentrating on the system: the Helmholtz and Gibbs energies, Standart molar Gibbs energy. 13 Real gases: the definition of fugacity, standart states of real gases, the relation between fugacity
and pressure. 14 Problems and their solutions
Instructor/s Prof.Dr. Mehmet DOĞAN, Prof.Dr. Mahir ALKAN, Assosiate Prof.Dr.Yasemin TURHAN
e-mail [email protected] , [email protected], [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: Organometallic Chemistry I Code : FKM5111 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 200 3+0+0 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
An introduction in Organometallic compounds and its reaction in Organic chemistry. The improvement of the reaction mechanism involving Organometallic reagents .
Learning Outcomes and Competencies
1- the bonding between carbon and main group elements would be known. 2- The main metal organometallics and their properties should be known.
Textbooks and /or References
Organometallics, Ch. Elschenbroich, A. Salzer Complexes and Firs-Row Transition Elements, David Nicholls (MACMILLAN) http://www.ilpi.com/organomet/ Organic Chemistry, Solomons, Related Chapters. Inorganic Chemistry, J.E. Huheey, E.A. Keiter, R.L. Keiter. Molecular Chemistry of the Transition Elements, François Mathey Alain Sevin (WILLEY)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The history and currents of Organometallic chemistry A brief approach to carbon metal bonds A brief approach to carbon metal bonds Energy, polarite and reactivity in Organometallic Compounds Energy, polarite and reactivity in Organometallic Compounds Alkali Organometallics Alkali Organometallics Main-group (I and II) organometallics (Li, Mg, Cd, Hg, Zn) Main-group (I and II) organometallics (Li, Mg, Cd, Hg, Zn) Main-group (I and II) organometallics (Li, Mg, Cd, Hg, Zn) Organometallics of boron group (B, Al, Ga, In, Tl) Organometallics of boron group (B, Al, Ga, In, Tl) Organometallic compounds of carbon group. C, Si, Ge, Sn, Pb Organometallic compounds of carbon group. C, Si, Ge, Sn, Pb
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: Spectroscopic Methods in Organic Chemistry I
Code : FKM5112 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 3+0+0 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
A short introduction to the UV, IR and H-NMR spectrometers and solutions of its spectra
Learning Outcomes and Competencies
Should know the UV, IR and H-NMR equipments and evaluate the spectrums.
Textbooks and /or References
Spectroscopic Methods in Organic Chemistry, D.H. Williams, I. Fleming (McGraw-HILL-London) Organik Kimyada Spektroskopik Yöntemler, E. Erdik. (GAZİ) Nükleer Manyetik Spektroskopisi. Metin BALCI (METU)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A short introduction to the UV-Vis spectrophotometers Principles in UV-Vis spectrophotometers Evaluation of the Uv-Vis Spectra Evaluation of the Uv-Vis Spectra with the examples Principles in IR spectrometers Evaluation of the FTIR Spectra Evaluation of the FTIR Spectra with the examples H-NMR spectrometers Evaluation of the H-NMR Spectra Evaluation of the H-NMR Spectra with the examples The solution of the molecular structure from UV, IR ve H-NMR spectra The solution of the molecular structure from UV, IR ve H-NMR spectra Suggestion of the spectra from the known molecular structure
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: Special topics in Stereochemistry
Code : FKM 5117 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Some special subjects in the organic chemistry involving stereochemistry
Learning Outcomes and Competencies
1- should know the hybritization of carbon atom 2- should know the molecular structure and structural isomerism 3- should know the optical isomerism.
Textbooks and /or References
1- Organic Chemistry, 8th Edition, T. W. Graham Solomons, Univ. of South Florida Craig B. Fryhle, Pacific Lutheran Univ. ISBN: 978-0-471-41799-6 Stereochemistry chapters
2- http://w3.balikesir.edu.tr/~hnamli/ (lecture notes)
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Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to the stereochemical reactions Definitions in stereochemistry Definitions in stereochemistry Hybridization of carbon atoms Hybridization and molecular geometry Hybridization and molecular geometry Isomerism, structural isomers Isomerism, structural isomers Structural isomers in the reaction Structural isomers in the reaction Optical isomers and definitions in Optical isomers in the reactions Reaction involved Optical isomers
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: ELECTROMETRIC ANALYSIS
TECHNIQUES Code : FKM 5118
Institute: SCIENCE Field: CHEMİSTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autum Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To introduce fundamentals and instruments of electrometrical techniques, to teach their principal concepts, to introduce the applications of these techniques and to compare with the other techniques
Learning Outcomes and Competencies
1-to understand fundamental principles and theories of electrochemical stripping techniques 2-to understand instrument components and working principles of electrochemical stripping techniques 3-be able to learn how an electrochemical stripping technique is operated. 4-be able to compare these techniques with each other according to accuracy, sensitivity, precision and selectivity
Textbooks and /or References
1-Fundamentals of Analytical Chemistry, Eight edition Skoog, West Holler and Crouch, Thomson, Brooks/Cole, 2004. 2-Enstrümental Analiz I Elektrometrik Yöntemler , H.Tural, İ.Gökçel ve F.N.Ertaş E.Ü.,2003. 3-Analytical Electrochemistry Joseph Wang, VCH Publishers, Inc. New York 1994. 4-Lecture Notes
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Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Classification of electroanalytical techniques, fundamental concepts in electrochemistry Conductivimetry Potentiometry Electrogravimetry and Coulometry dc polarography dc polarography the effects limiting dc polarography, normal pulse and differantial pulse polarography, square wave polarography. the electrodes used in voltammetry, determination of working parameters in voltammetry, Stripping Analysis: Anodic Stripping Voltammetry, Cathodic Stripping Voltammetry, Adsorptive Stripping Voltammetry, Adsorptive catalytic stripping voltammetry, Potentiometric Stripping Analysis.
Instructor/s Prof.Dr.Nuri Nakiboğlu
e-mail [email protected]
Website http://kimya.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title:
Advanced Polymer Chemistry I
Code : FKM5119
Institute: Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
3 0 0 --- --- --- 3 3+0+0=3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Application on theoretical and experimental investigation of polimerization Kinetics
Learning Outcomes and Competencies
Terms and conditions of the polymerization reactions known.
Textbooks and /or References
D. Braun, H. Cherdron, M. Rehahn, H. Ritter, B. Voit, Polymer Syntehesis: Therory and Practice, IV. Ed. ISBN: 3.-540-20770-8 Spring Berlin, Heidelberg, New York, 2005 George Odian, Principles of Polymerization IV. Ed., ISBN: 0-471-27400-3, Printed in the USA
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Polymers and Effect of Polimeric Structure on Physical Properties Polymers and Effect of Polimeric Structure on Physical Properties Polymerization Kinetics (Step Reaction Polymerization) Polymerization Kinetics (Radical Chain Polymerization) Polymerization Kinetics (Ionic Chain and Ring Opening Polym erization) Polymerization Systems (Block, Solution, Suspension Polymerization) Polymerization Kinetics (Sterospecific Polymerization, Kopolimerization) Polymerization Systems (Precipitate, Gas Phase, Solid Phase Polymerization) Polymerization Systems (Emulsion Polymerization) Polymerization Systems on Polymer Properties Polymerization Systems on Polymer Properties Practical experience in the laboratory Practical experience in the laboratory Evaluation of practical experience of working in the laboratory
Instructor/s Assoc. Prof. Dr. Taner TANRISEVER
e-mail [email protected]
Website http://taner.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: The Disconnection approach Code : FKM 5122 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
How to disconnect an aimed organic molecule to the commercially available molecules
Learning Outcomes and Competencies
Should be able to offer disconnection to the larger molecule to the small and commercially available molecule
Textbooks and /or References
The Disconnection Approach, Stuard Warren (JOHN WILLEY & SONS)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Basic principles of disconnection One-group C-X disconnections One-group C-X disconnections Two-Group C-X disconnections Cyclisation Reactions Amine synthesis Protecting groups One-Group C-C disconnections (Alcohols) Choosing a disconnection Carbonyl compounds Alkene synthesis Diels-Alder reactions Carbonyl condensations
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: CHEMICAL APPLICATIONS OF GROUP THEORY I
Code : FKM 5124 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratory Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Principles of the group theory and applications, symmetry and applications
Course Objectives
Teaching of the Group Theory principles
Learning Outcomes and Competences
The ability of the gain group theory principle with mathematical principles.
Textbook and /or References
Chemical Applications of Group Theory, F. Albert Cotton, Wiley Interscience
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Definition and theorems of group theory Some examples of groups Subgroups The principles of the group theory Molecular symmetry and the symmetry groups Symmetry Elements and Operations Optical isomerism Representations of groups Some properties of matrices and vectors Character tables Cyclic groups Group theory and quantum mechanics Illustrative examples Symmetry-adapted linear combinations
Instructors Prof. Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: Advanced Solid-State Chemistry I
Code :FKM5125
Institute:Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- 58 100 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Crystal systems and information about characterization, synthesis of solid crystals theoretical knowledge about the systematic and comprehensive, to give students the advanced solid -state concepts of chemistry to develop the ability to think about.
Learning Outcomes and Competencies
Crystalline compounds synthesis, structure and characterization of advanced subject knowledge to teach the students
Textbooks and /or References
1)Lesley E. Smart and Elaine A. Moore, “Solid State Chemistry”, Taylor&Francis 2)Antony R. West, “ Basic Solid State Chemistry”, John Wiley & Sons,Ltd.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
Mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 25 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
An Introduction to Crystal Stuructures Symmetry in Crystal,Lattices and Unit Cells Miller İndices Crystalline Solids, Calculating Lattices Energy Physical Methods for Characterizing Solids, X-ray Diffraction Powder Diffraction, Single Crystal X-ray Diffraction Electron Microscopy Solid State Nuclear Magnetic Resonance Spectroscopy Thermal Analysis (DTA and TGA) Preparative Methods in Solid State, High Temperature Ceramic Methods Microwave Synthesis Hydrothermal Methods Preparing Single Crystals Preparation of Semiconductors
Instructor/s Assos. Prof.Dr. Figen Kurtuluş
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Advanced Biochemistry Laboratory Techniques-I
Code : FKM 5126 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To comprehend advanced biochemistry laboratory techniques.
Learning Outcomes and Competencies
To learn advanced biochemistry laboratory techniques.
Textbooks and /or References
Biochemical techniques theory and practise, John F.Robyt, Bernard J. White, Biomolecules with theories and applications, Arslan O., Balıkesir, 2003
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10
11
12
13
14
Solutions and properties
Spectroscopic methods Chromatographic techniques Chromatographic techniques Adsorption and ion changing chromatography Liquid-liquid sharement Gel filtration HPLC and affinity chromatography Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids Applications of chromatographic techniques on carbohydrates, aminoacids, nucleic acids and lipids
Instructor/s Assist.Prof.Dr. Semra IŞIK
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Computer Programming for Crystallography
Code : FKM 5128 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the crystallographic problem solutions by using the Fortran, Pascal and some pocket programs
Learning Outcomes and Competences
Ability of the gain to calculate crystallographic problems by using Fortran and Pascal programs.
Textbook and /or References
Fortran 77, F. Tokdemir, ODTÜ pres. Paskal , Naci Altan, Alfa Press.
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mark as (X)
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If any,
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam x 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to the Fortran programming language The principles of the Fortran programming language The loops for the Fortran language The usages of the Fortran language in crystallography Introduction to the Pascal programming language Principles of Pascal language The usages of the Pascal language in crystallography Crystallographic calculations by Pascal programming Some Illustrative crystallographic examples for Pascal language The techniques for program writing for the Pascal language Pascal programming for the crystallographic unit cell calculations The usages of the Pascal programs for the crystallographic unit cell calculations Introduction of the crystallographic pocket programs Some illustrative examples from the pocket programs
Instructors Prof. Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: CARBOHYDRATE METABOLISM
Code : FKM 5129
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To comprehend carbohydrates and basic metabolic pathways.
Learning Outcomes and Competencies
To learn carbohydrates and basic metabolic pathways.
Textbooks and /or References
Efficient ,Stryer Biochemistry, Voet Biochemistry
ASSESSMENT CRITERIA
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mark as (X) Percent
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The digestion of Carbohydrates Glycolysis Glycolysis Citric acid cycle Glycocyclate cycle Oxidative phosphorilation Oxidative phosphorilation Pentose phosphate pathway Gycogen metabolism Glyconeogenesis Reaction mechanisms and in vivo cell controlling systems of metabolic pathways Reaction mechanisms and in vivo cell controlling systems of metabolic pathways Reaction mechanisms and in vivo cell controlling systems of metabolic pathways Reaction mechanisms and in vivo cell controlling systems of metabolic pathways
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Enzymatic Analysis Code : FKM 5130 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
The purpose of this lecture to give the imporatance of enzymatic analysis and its principals and application fields as well.
Learning Outcomes and Competencies
To comprehend basic principles of enzymatic analysis after to apply specific fields of applications.
Textbooks and /or References
Efficient ,Stryer Biochemistry, Voet Biochemistry
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Midterm Exams Midterm Exams
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Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The application field of enzymatic analysis The application field of enzymatic analysis The application field of enzymatic analysis The importance of enzymatic analysis more than chemical analysis The importance of enzymatic analysis more than chemical analysis The importance of enzymatic analysis more than chemical analysis The principals of enzymatic analysis The principals of enzymatic analysis The principals of enzymatic analysis The method of end point and kinetic methods The method of end point and kinetic methods The method of end point and kinetic methods The assays of enzyme activity and immunoassay techniques The assays of enzyme activity and immunoassay techniques
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Mechanism of Enzyme Action Code : FKM 5131 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Kinetic properties of enzymes and their effective mechanisms will be given in this lecture.
Learning Outcomes and Competencies
To learn mechanism of enzyme action.
Textbooks and /or References
Efficient, Stryer Biochemistry, Voet Biochemistry
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mark as (X) Percent
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Midterm Exams Midterm Exams
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Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Enzymes and their Classification Enzymes and their Classification Enzymes and their Classification Vmax and Km values of enzymes Vmax and Km values of enzymes 3 D structure of enzymes 3D structure of lysozyme and bacterial cell walls are spoiled by lysozyme 3D structure of lysozyme and bacterial cell walls are spoiled by lysozyme Critical carbocation formation for catalysis Fragmentation of RNA mechanism by Ribonuclease A Fragmentation of RNA mechanism by Ribonuclease A The binding of substrate into the active site of enzyme and structural changing of the enzyme The effective mechanism of carboxypeptidase A and serin protease The effective mechanism of carboxypeptidase A and serin protease
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Characteristic and Reactions of Functional Groups
Code :FKM 5132 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester 1 Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding characteristic reactions and mechanism of main functional groups (organic halogens, organometalic compounds, alkanes,alkenes, alkynes, aldehydes and ketones, carbocyclic acides and derivatives, alcoholes, ethers, amines) in organic chemistry.
Learning Outcomes and Competences
1) Understanding of organic reactions mechanisms 2) Reactions of functional grups and examine of their reaction mechanisms
Textbook and /or References
A guidebook to mechanism in organic chemistry (Peter Sykes, Christ’s college,Cambridge), Advanced Organic Chemistry ( Francis A.Carey, University of Virginia), Organic Chemistry (Donald J.Cram, University of California)
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mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Materials of background and approaches Organic halogens Reactions of organic halogens, Organometalic compounds Applications of organometalic compounds Alkanes Alkenes Substitution reactions of alkenes Alkynes Aldehydes and ketones Carbocyclic acides and derivatives Alcoholes Ethers Amines
Instructors Prof.Dr.Ümit ÇAKIR
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Atomic Absorption Spectrometry
Code : FKM 5135
Institute: Science Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/ FieldStudy
Homework Other Total Credit T+A+L=Credit
ECTS
42 14 28 116 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To teach the working principles of atomic absorption spectrometer, to introduce the basic components of AAS, to introduce making chemical analysis by AAS and some application areas.
Learning Outcomes and Competencies
1- Be able to know basic principles of atomic absorption spectroscopy 2- Be able to use AAS instrument. 3- Be able to know sample preparation and calibration techniques for AAS. 4- Be abletoknow some application areas of AAS.
Textbooks and /or References
1. Principles of Instrumental Analysis, D.A.Skoog, J.J. Leary, 1992, 0-03-023343-7, SaundersCollege Publishing.
2. AtomicAbsorptionSpectrometry: Theory, Design and Applications, Ed. S.J. Haswell, 1991, ISBN: 0-444-88217-0, ElsevierScience Publishing.
3. Fundamentals of AnalyticalChemistry, D.A. Skoog, D.M. West, F.J. Holler, 1992,0 -03-074922-0, SaundersCollege Publishing.
4. Spectrochemicalanalysisbyatomicabsorptionandemission, L.H.J. Lajunen, ISBN: 0-85186-873-8, Cambridge: RoyalSociety of Chemistry, 1992.
5. Applications of atomicspectrometrytoregulatorycompliancemonitoring, S.W. Jenniss, ISBN : 0-471-19039-X, New York: Wiley-VCH, 1997.
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mark as (X) Percent
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Percent (%)
MidtermExams MidtermExams
Quizzes MidtermControls
Homework X 20 TermPaper
TermPaper, Project Reports, etc.
Oral Examination
LaboratoryWork X 20 Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Properties of ElectromagneticRadiation Properties of ElectromagneticRadiation Basic Principles of AtomicAbsorptionSpectroscopy (AAS) InstrumentalRequirementsandOptimization Atomizers Atomizers LightSources MonochromatorsandOptics Dedectors Background CorrectionTechniques Interferences CalibrationandSamplePreparation SampleEnrichmentandRemoving of Interferences Some Applications of AAS
Instructor/s Assoc.Prof.Dr.Sema Bağdat
e-mail [email protected]
GRADUATE COURSE DETAILS
Course Title: Statistical evaluation of analytical data
Code : FKM5136 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Statistical evaluation of the experimental data and experimental design techniques
Learning Outcomes and Competencies
The selection of related statistical test to evaluate analysis results and its application.
Textbooks and /or References
Statistics for Analytical chemistry J.C. Miller and J.N. Miller Chemometrics : Experimental Design Ed Morgan
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
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Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Error in chemical analysis and types of error Systematic errors and sources Statistics of repeated measurements The standard deviation of computed results Distribution of errors Confidence limits of the mean Significance tests Student t-test (one-way and two way) Paired t-test, F-test Analysis of variance and experimental design One-way Anova Two way Anova Latin squares The chi-squared test
Instructor/s Prof.Dr. Derya KARA FISHER
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: PHASE EQUILIBRIUM Code : FKM5137 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autmun Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The determination of the properties of systems in terms of Gibbs phase law; the drawning of phase diagrams for different systems and the explanation of their properties; the learning of colligative properties
Learning Outcomes and Competencies
The learning of basic properties of phase diagrams of the systems of different components; Raoult law; kolligavive properties
Textbooks and /or References
Laidler and Meiser, Physical Chemistry, Houghton Mifflin, 1999; Atkins, Physical chemistry, Oxford, 1998.
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mark as (X) Percent
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 Gibbs phase law 2 Chemical potential 3 Single component systems 4 Two and three component systems 5 Raoult law 6 Thermodynamics of ideal liquid mixtures 7 Freezing point depression and boiling point elevation 8 Osmotic pressure 9 Non-mixture liquids 10 Solid solutions 11 Relative solubility 12 Compound forming 13 Thermal analysis 14 Problems and their solutions
Instructor/s Prof.Dr. Mahir ALKAN, Prof.Dr. Mehmet DOĞAN, Doç.Dr. Yasemin TURHAN
e-mail [email protected], [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: Arrengement reactions of organic compounds I
Code : FKM 5138 Institute: Science Field: CHEMİSTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understand the mechanism of organic rearrangement reaction.
Learning Outcomes and Competencies
The mechanism of organic rearrangement reaction and how to use them in the synthesis are learned.
Textbooks and /or References
1) Organic Chemistry, T.W. Graham Solomons 2) Adanced Organic Chemistry, Jerry March 3) Mechanisms of Reaction, Celal TÜZÜN
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Theoretical Courses Project Course and Graduation Study
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Definition of arrangement and rearrangement mechanism and examples to this mechanism Nature of group shifts Long range nucleophilic arrangement, free radicalic arrangement, electrophilic arrangement Pinacole arrangement, benzyl and benzylic acid arrangement Arndt-Eistert arrangement Grignard reactives arrangement Neber, Hoffman, Curtius, Lossen, Schmidt arrangement Beckman arrangement Bayer williger arrangement Hydroperoxide arrangement Stevens and Witting arrangement Electrocyclic arrangement Sigmatropic arrangement Coope and chapman arrengement
Instructor/s Prof. Dr. Turgut KILIÇ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: 1H-NMR Spectroscopy Code : FKM 5139
Institute: Science Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understand the usege of 1H-NMR Spectroscopy in the structure determination of organic molecules.
Learning Outcomes and Competencies
How can usage of 1H-NMR Spectroscopy in the structure determination of organic molecules are
learned.
Textbooks and /or References
1) Nükleer Manyetik Rezonans Spectroscopy, Prof. Dr. Metin BALCI / ODTÜ 2) Spectroscopis methods of Organic Chemistry, Prof.Dr. Ender ERDİK / Ankara Üniversitesi
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Spectroscopic methods and its position in organic chemistry History and applications of NMR Physical basics of NMR Basics of NMR Chemical shifts Effect of Chemical shifts Theorical calculation of chemical shifts of compounds Coupling constant Secondary coupling constant Paramagnetizm in NMR Diamagnetizm in NMR Evalation of spectroscopic data Evalation of spectroscopic data Determination of structure
Instructor/s Prof. Dr. Turgut KILIÇ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Isolation and characterization of natural compounds
Code : FKM 5140 Institute: Science Field: CHEMİSTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Define the backround of naturel compounds. Understand the izolation and stucture determination of naturel compounds.
Learning Outcomes and Competencies
How to maket he naturel compound’s studies are learned.
Textbooks and /or References
1) Organic Chemistry, T.W. Graham Solomons,1992 2) Fitokimyasal Analizler, Prof.Dr. Mekin TANKER, Ankara Üniversitesi, Eczacılık Fakültesi
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
History and applications of Naturel compounds Studies of Naturel comppound in the World Properties and clasyfication of naturel compounds Essential oils Flavonoids Terpenes Alkaloids Glikozits Antioksidant compounds Isolation of naturel compounds Isolation of naturel compounds Caracterization of naturel compounds Caracterization of naturel compounds Study of Biologigal actyvyties
Instructor/s Prof. Dr. Turgut KILIÇ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: SAMPLE PREPARATION METHODS IN CHEMICAL ANALYSIS
Code : FKM 5141 Institute:SCIENCE Field: CHEMİSTRY
Education and Teaching Methods Credits Lecture
Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autum Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
To introduce sample digestion methods and their applications to different matrix
Learning Outcomes and Competencies
1-to learn in general when and how the sample preparation techniques are used, 2-to gain ability for use the devices and apparatus the used techniques
Textbooks and /or References
1-Fundamentals of Analytical Chemistry, Eight edition Skoog, West Holler and Crouch, Thomson, Brooks/Cole, 2004. 2-Course Notes,Papers and firm cataloques
ASSESSMENT CRITERIA
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Steps in chemical analysis, The importance of sample preparation and the characteristics of sample containers, Classification of samples required digestion sampling, preparing laboratory samples, Overview to sample digestion techniques, Common errors in sample digestion procedures, Wet digestion methods and digestion with inorganic acids in open-vessels, Microwave digestion, High pressure ashing, UV digestion, Dry Ashing methods: combustion tube method and combustion with oxygen, Low temperature plasma ashing, Decomposition by fluxes, Samples with different matrix, selection of digestion technique, discussion, Samples with different matrix, selection of digestion technique, discussion
Instructor/s Prof.Dr.Nuri Nakiboğlu
e-mail [email protected]
Website http://kimya.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Molecular Spektroscopy Code : FKM5143 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The aim is to provide an understanding of the general concepts of molecular spetroscopy and general concepts of the instrumentation of different spectroscopic methods as well as their applications.
Learning Outcomes and Competencies
1- Understanding general concepts of molecular spetroscopy, 2- Understanding of general concepts and instrumentation of the different spectroscopic methods and their applications 3-Highlighting the problems in the application of these methods
Textbooks and /or References
Principles of Instumental Analysis Skoog, Holler ve Nieman Fundamentals of molecular spectroscopy Banwell, Colin N.
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
An Introduction to UV-Vis Molecular Absorption Spectrometry Components of Optical Instruments Uv-Vis Molecular Absorption Spectroscopy Applications of UV-Vis Molecular Absorption Spectroscopy Molecular Luminescence Spectroscopy Applications of Molecular Luminescence Spectroscopy Infrared Spectroscopy Applications of Infrared Spectroscopy Raman Spectroscopy Applications of Raman Spectroscopy Nuclear Magnetic Resonance Spectroscopy Applications of Nuclear Magnetic Resonance Spectroscopy Molecular Mass Spectroscopy Applications of Molecular Mass Spectroscopy
Instructor/s Prof.Dr. Derya KARA FISHER
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: BİOİNORGANİC CHEMİSTRY Code : FKM 5144 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Fall Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
What is Bioinorganic Chemistry? Metal functions in metalloproteins, metalloenzyme functions, principles of coordination chemistry related to bioinorganic research, properties of biological molecules, physical methods in bioinorganic chemistry, research in biological and synthetic systems.
Learning Outcomes and Competences
As a result of this course, participants will be able to: demonstrate basic use of terminology used in bioinorganic chemistry, identify and classify the roles of metal centers in biological systems, apply basic chemical principles to metal centers in biology, familiarize themselves with a variety of physical methods.
Textbook and /or References
Principles of Bioinorganic Chemistry, Stephen J. Lippard, Jeremy M. Berg, 1994, University Science Boks, Mill Valley, California. Bioinorganic Chemistry, Ivano Bertini, Harry B. Gray, Stephen J. Lippard, Joan S. Valentine, 1994, University Science Boks, Mill Valley, California.
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Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
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If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Owerview of bioinorganic chemistry Principles of coordination chemistry related to bioinorganic chemistry Properties of biological molecules Physical methods in bioinorganic chemistry Physical methods in bioinorganic chemistry (continued) Bioavalability of metal ions Bioavalability of metal ions (continued) Control and utilization of metal-ion concentration in cells Control and utilization of metal-ion concentration in cells (continued) Binding of metal ions and complexes to biomolecule-active centers Binding of metal ions and complexes to biomolecule-active centers (continued) Electron-transfer proteins Atom- and group-transfer chemistry Atom- and group-transfer chemistry (continued)
Instructors Asist. Prof. Dr. Çiğdem HOPA
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Advanced Ceramic Chemistry Code : FKM 5145 Institute:Science institute Field: Chemstry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- 58 100 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the ceramic raw materials and compounds with the physical and chemical properties and teaching also some instrumental methods mostly used in ceramic industry.
Learning Outcomes and Competencies
Student would be recognized better the ceramic raw material and compounds. They would also discus the usage of these materials in industrial arena with the help of physical and chemical informations
Textbooks and /or References
1)Seramik Science and Engineering, M. Bengisu, Nobel press. 2)Malzeme Bilimi ve Mühendisliği, W. F: Smith, Çeviri, Literatür Yayınları. 3)Solid State Chemistry, L. E. Smart, Taylor&Francis.
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If any,
mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 25 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Historical developing of ceramic Ceramic raw materials and theirs chemistry Raw materials of clay, kaolin, quartz and feldspars Physical and chemical properties of ceramic raw materials The properties of the traditional and the technological ceramics Electrical, thermal and mechanical properties of the ceramic materials Electrical applications of the ceramic materials Optical and magnetic applications of the ceramic materials Crystal structures of the ceramic compounds Phase diagrams Thermal behaviors of the ceramics, DTA/TG analyses Physical and chemical properties of the superconductor ceramics Non oxide ceramics and theirs properties XRD and XRF analyses for the ceramic type compounds
Instructor/s Assos. Prof.Dr. Figen Kurtuluş
e-mail [email protected]
Website
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Macromolecule Synthesis I Code : FKM 5146
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homeworks Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester Autumn Language Turkish
Course Type Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives Understanding of macromolecule synthesis
Learning Outcomes and Competences
1) To understand principal concepts and theories in macromolecule chemistry
2) To comprehend macrociyclic synthesis methods and It can be applied to experimental
Textbook and /or References
1) David PARKER “Macrocycle Synthesis A Practical Approach” OXFORD UNIVERCİTY (1996) 2)François Diederich, Peter J. Stang, and Rik R. Tykwinski “Modern Supramolecular Chemistry “WILEY-VCH Weinheim (2008)
3) V.S. Sastri and al MODERN ASPECTS OF RARE EARTHS AND THEIR COMPLEXES Elsevier Science; 1 edition (2003) 4) George Gokel “Crown Ethers and Cryptands” The Royal Society of Chem (1994) 5) Leonard F. Lindoy “ The chemistry of Macrocyclic Ligand Complexes” Cambiric Unv (1989) 6) Yoshihisa Inoue an G.W. Gokel “Cation Binding by Macrocycles”Marcel deccer (1990)
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Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2
3 4 5 6
7 8 9 10
11 12 13
14
İntroduction to macromolecular chemistry its position in organic chemistry
its signif icance in organic chemistry methods of synthesis Template High dilution
crown ethers cryptands azacrowns podands,
aza-oxa crowns calixarens synthesis synthesis methods
synthesis methods
Instructors Assoc. Prof.. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Stereoorganic Synthesis I Code : FKM 5147 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab Project/ Field Study
Homeworks.
Other Total T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of Stereoorganic Synthesis reactions
Learning Outcomes and Competences
1) To understand basics concepts in stereochemistry 2) It can be determined to the methods of stereochemistry at organic molecules 3) To comprehend the factors affecting to the stereochemistry of organic compounds in organic synthesis
Textbook and /or References
1) “Organic Chemistry”, T.W.G.Solomons, John Wiley (1992) 2) “Advanced Organic Chemistry”, J.March, John Wiley (1992) 3) “Advanced Organic Chemistry”, Fifth Edition, F.A. Carey and R.J. Sundberg, Springer (2007) 4) “Organic Chemistry” Claiden, Greeves, Warren and Wothers , Oxford Univ. Press (2001) 5) “Organic Chemistry” G.M. Loudon, Oxford Univ. Press (2002)
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
What is stereochemistry in organic compounds, Basics concepts in stereochemistry Basics concepts in stereochemistry Definition methods of stereochemistry at organic molecules Definition methods of stereochemistry at organic molecules Factors affecting to the stereochemistry of organic compounds in organic synthesis Effects of nucleophilic Solvent Alkyl groups Leaving groups Stereochemical approach to substituon and elimination reactions Stereochemical approach to substituon and elimination reactions Stereochemical approach to substituon and elimination reactions Stereochemical approach to substituon and elimination reactions
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Advanced Boron And Phosphate Chemistry
Code : FKM5149
Institute:Science institute Field: Chemstry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Structures, properties and uses fields of boron and phosphate compounds, are given general knowledge
Learning Outcomes and Competencies
Student would be recognized better the boron and phosphate compounds. They would also discus the usage of these compounds in industrial arena with the help of basic informations.
Textbooks and /or References
1)Sülin Taşçıoğlu,” Bor ve Silisyum Kimyası”, Marmara Üniversitesi Yayını 2)E.S. Grew, L.M. Anovitz, “Boron, Mineralogy, Petrology and Geochemistry”, Mineralogical Society of America Washington, D.C.
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Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Elementel Boron Boron Minerals Boron Compounds Uses Field and Importance of Boron Compounds Boron Carbide Compounds Metal Borophosphate Compounds Metal Borates Boron Nitride Compounds Boron Complexes Boranes Compounds Chemistry of Phosphate Classify of Phosphate Importance of Phosphate Crystalline and Glassy Phosphates with NASICON-Type Chemistry
Instructor/s Assos. Prof.Dr. Figen Kurtuluş
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Chemistry of the Less familiar Elements
Code : FKM 5152 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Fall Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
General Background material: What constitutes an unfamiliar element, periodic relationships Chemistry of the elements: Nonmetals (beginning with the noble gases and moving left through the periodic table), Active metals (beginning with group 1A and moving through the lanthanides and actinides, Transition metals
Learning Outcomes and Competences
As a result of this course, participants will be able to: demonstrate basic use of terminology used in inorganic chemistry, emphasis will be given as to why inorganic compounds behave the way they do, familiarize themselves with a variety of physical methods.
Textbook and /or References
Chemistry of the elements by Greenwood and Earnshaw Concepts and Models of Inorganic Chemistry, 1994, Pergamon Press. Inorganic Chemistry, Principles of Structure and Reactivity by J. E. Huheey 3 rd edition.
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X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Origin of the elements, isotops and atomic weight Periodic properties and periodic table Periodic properties and periodic table (continued) Noble gases and properties (especially chemistry of Kr, Xe ve Rn) Halides and properties (especially At chemistry) Chalcogens and properties (especiallychemistry of Se, Te, Po) Chalcogens and properties (especially chemistry of Se, Te, Po) (continued) Group 5 elements (especially As, Sb, Bi) Group 4 elements (especially Ge, Sn, Pb) (continued) Group 3 elements (especially Ga, In, Tl) Group 3 elements (especially Ga, In, Tl) (continued) Lanthanides Actinides Transition metals (general)
Instructors Doç. Dr. Figen Kurtuluş , Yrd. Doç. Dr. Çiğdem Salam
e-mail [email protected]; [email protected];
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: REACTIVE INTERMEDIATES I Code : FKM5153 Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Carbene, ketene, aryne and their syntheses.
Course Objectives
Describe the reactive intermediates , Analyze the structure of carbene, nitrene and aryne, and learn the generation and reactions of these reactive intermediates examined with reaction mechanisms
Learning Outcomes and Competences
At the end of course, the concepts, generations and reactions via mechanisms of reactive intermediates; carbenes, nitrenes and arynes are learned. Learned course subjects can be applied on synthetic organic chemistry.
Textbook and /or References
1. Gilchrist, T.L., Rees, C.W., “Carbenes, Nitrenes, Arynes”, Thomas Nelson and Sons Ltd., London, 1973, ISBN 0 17 771702 5., 2. Baird, M.S., Chem.Rev., 2001, 103, 1271-1294., 3. Kirmse, W., “Carbene Chemistry”, Academic Press, New York, 1971, ISBN 64 21669.
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mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Brief description of reactive intermediates and their importance in organic chemistry Explanation of carbene structure, Generation of carbenes from diazoalkanes. Generation of carbenes from ketens and ylids and explanation of alpha elimination Other methods for the generation of carbenes Cycloaddition reactions of carbenes via mechanisms Insertions and other reactions of carbenes via mechanisms Explanation of nitrene structure, Generation of nitrenes from azides and other photolytic routes Generation of nitrene via alpha elimination and other routes for generation of nitrenes Cycloaddition reactions of nitrenes via mechanisms Insertions and other reactions of nitrenes via mechanisms Explanation of aryne structure, Generation of arynes from aryl anions and aryl cations Generation of arynes from aryl radicals Cycloaddition reactions of arynes via mechanisms Reactions of arynes with nucleophiles, electrophiles and radicals via mechanisms
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Pheromones In Organıc
Chemıstry Code : FKM 5155
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homeworhs Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Synthesis and structure identification of pheromone compounds
Learning Outcomes and Competences
1)To understand basics concepts in pheremon chemistry
2)It can be Synthesis and structure identification of pheromone compounds
Textbook and /or References
1) Stefan Schulz The Chemistry Of Pheromones And Other Semiochemicals I Sprinder –(2004) 2)Organic & Biomolecular Chemistry, issue 19, 2009 Royal Society of Chemistry, London 3) Terpenes: Flavors, Fragrances, Pharmaca, Pheromones Wiley InterScience
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mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
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Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1-2 3,4,5
6,7,8
9
10-14
Inroduction of pheromones Communication systems of insects, Separation,Structure determination of chemicals in this system İnvestigation of economical profit of this pheromones Some pheromones synthesis containing more steps (Z-50, ipsenol, paraconfusus, amitinol, grandisol, periplanone)
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: The optional topics of Biochemistry I
Code : FKM 5157
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand specific issues in Biochemistry.
Learning Outcomes and Competencies
To learn specific issues in Biochemistry.
Textbooks and /or References
Voet Biochemistry, Stryer Biochemistry,Efficient
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mark as (X) Percent
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Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Hemoproteins Enzymatic reaction mechanism Enzymatic reaction mechanism The velocity of enzymatic reactions The controlling mechanism of enzymatic activity Proteins Proteins 3 D structures of proteins Protein modification Protein modification Protein modification Polysaccarids Polysaccarids Polysaccarids
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Electrically Charged Interfaces and Zeta Potential
Code : FKM 5159 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
It is very important that the knowing of the properties of colloidal systems and phenomenon of interfaces in Chemistry and Industrial Applications. On the other hand, while the crucial importance of surface and interface chemistry is stressed, it will be thought preferable to discussion of the interfaces, surface potential and charge, solid surfaces and etc.
Learning Outcomes and Competencies
Knows the Zeta potential of electrically charged particles
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Basic concepts of surface and interface chemistry Behaviors of colloidal system Charged colloidal system and examples The solid – solution interface Charge and potential distribution The surface potential of a charged solid Electrically charged interface Structure of electrical double layer Measuring surface charge and potential The electrokinetic effects. PDI, point of zero charge, isoelectrical point. Calculation of the Zeta Potential Electrophoresis and electro-osmosis measurements Streaming current and streaming potential Applications of the zeta potential
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: COMPUTATIONAL
ORGANIC CHEMIS TRY I Code : FKM5160
Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Contents
Basics of quantum chemistry briefly, Molecular Mechanics, Semi-emprical methods, DFT, and ab-initio methods
Course Objectives
To learn the basic concepts of computational chemistry and its application in organic chemistry field.
Learning Outcomes and Competences
Usage of computational chemistry in organic chemistry field; especially finding suitable geometries of organic molecules and exploring organic reaction mechanisms.
Textbook and /or References
Jensen, F., “Introduction to Computational Chemistry”, John Wiley Sons Ltd., West Sussex, England, 1999, ISBN 0-471-98425-6.
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Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
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If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Background and application of computational chemistry briefly Background and application of molecular modelling briefly Explanation of Force-Field method Location of minumum energy structures and transition structures Application of force-field methods in organic chemistry Electronic Structure Methods Born-Oppenheimer Appoximation SCF theory and basis set approximation Explanation of restricted and unrestricted hatree-fock (RHF and UHF) SCF techniques Explanation of semi-emprical methods Application of semi-emprical methods in organic chemistry Comparision of semi-emprical methods Explanation of conformational searches with force-field and semi-emprical methods
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: SupramolecularChemistry I Code : FKM5161 Institute: Science Field: Chemistry
EducationandTeachingMethods Credits Lecture Application Lab. Project/
FieldStudy Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
X Social Elective
Course Objectives
Learning supramoleculerchemistryandapplication
Learning Outcomes and Competencies
Through synthesizingbigmolecules in supramoleculerchemistry, they can use in photodynamictherapywhich is a newcancertherapymethodbyusing in synthesizing of drug. Progress can be providedbythissynthesisanditsanalogous in nanotechnology.
Textbooks and /or References
SupramolecularChemistry (yazar:J.W. Steed, J.L. Atwood)
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mark as (X) Percent
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MidtermExams X 30 MidtermExams
Quizzes MidtermControls
Homework X 30 TermPaper
TermPaper, Project Reports, etc.
Oral Examination
LaboratoryWork Final Exam
Final Exam X 40 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introductiontosupramoleculerchemistry Classification of supramoleculer ‘host-guest’ compounds Receptors, coordination, ‘lockandkey’ model Chelatandmacrocycliceffects RearrangementandComplementation Thermodynamicandkineticselectivity Nature of supramoleculerinteraction Designing of supramoleculer ‘host’ Supramoleculerchemistry of life Supramoleculercharacteristics of plantphotosynthesis Cationbinding ‘host’ Anionbinding Binding of neutral Moleculerdevices
Instructor/s Yrd.Doç.Dr. Funda Yükrük
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: EnzimaticReactionMechanisms Code : FKM 5162 Institute: Science Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/ FieldStudy
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific X
Technical Elective
Social Elective
Course Objectives
Learning of enzymaticreactonmechanism
Learning Outcomes and Competencies
Students can be worked in theindustryofdrug, food, biotechnologyafterbeingmoresufficient in thefield of biochemistrybylearningenzymaticreactionmechanisms
Textbooks and /or References
EnzymaticReactionMechanisms (author: ChristopherWalsh)
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mark as (X) Percent
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MidtermExams X 30 MidtermExams
Quizzes MidtermControls
Homework TermPaper
TermPaper, Project Reports, etc.
X 30 Oral Examination
LaboratoryWork Final Exam
Final Exam X 40 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11
12 13 14
Introduction Outline of thefourmajorsections(enzymology of group-transfer reactions, enzymaticoxidationandreduction, enzyme-catalyzedeliminations, isomerizations, rearrangements, enzymaticreactionsthatmakeand break C-C bonds EnzymeCategorizations EnzymesandCatalysis Aminoacid’sstructuresandfunctionalgroups Specificityand rate accelerations Introduction:Classification of proteases Chymotrypsin Othertypes of proteases PhosphorylTransfers I: Phosphatases, ATPases, andPhosphodiesterasescatalyzedphosphoryltransfers PhosphorylTransfers, II: Kinases GlycosylTransfers Enzymaticoxidationsandreductions(oxidation-reductionprocesses, glyoxylase:anenzymatichydride transfer, anotheraldehydeoxidationinvolvingapparenthydrideshift) Enzymaticoxidationsandreductions(oxidation-reductionprocesses, glyoxylase:anenzymatichydride transfer, anotheraldehydeoxidationinvolvingapparenthydrideshift)
Instructor/s FUNDA YUKRUK
e-mail [email protected]
Website
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Physical Organic chemistry I Code : FKM 5163
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homeworks Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives Understanding of Physical Organic chemistry
Learning Outcomes and Competences
1) To understand principal concepts and laws in Physical organic chemistry
2) It can be applied the thermodynamics laws to the organic chemistry reactions
Textbook and /or References
1) Physical Organic chemistry Second Edition Neil S. Isaacs 1996
2) Organic Chemistry, T.W. Graham Solomons,1992
23 Adanced Organic Chemistry, Jerry March
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mark as (X)
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mark as (X)
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Midterm Exams Midterm Exams
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Homeworks X 30 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Models of chemical bonding Kinetics and thermodinamics
Reagents and reaction mechanizm
Reagents and reaction mechanizm
Correlation of structure with reactivity
Solvent effect Acids and bases , elecrophiles and nücleophles
Acids and bases , elecrophiles and nücleophles
Kinetic izotope effect
Kinetic izotope effect
Steric and conformational properties Steric and conformational properties
Homegeneous catalysis
Homegeneous catalysis
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Nanobiotechnology
Code : FKM 5164
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Bionanotechnology seeks to modify and find technological uses of natural nano-components for leading applications in biosensing, biocontrol, bioinformatics, genomics, medicine, computing, information storage and energy conversion.
Learning Outcomes and Competencies
To learn detailed informations about bionanotechnology.
Textbooks and /or References
Efficient Nanobiotechnology: Concepts, Applications and Perspectives Christof M. Niemeyer, Chad A. Mirkin Bionanotechnology: Lessons from Nature David S. Goodsell
ASSESSMENT CRITERIA
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 10 Term Paper
Term Paper, Project Reports, etc.
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
How small is a nanometer? What is nanotechnology? Biomaterials: Mechanical Properties & Polymers Biomaterials: Natural and Biomimetic Materials Biomaterials: Cell-Material Interactions Biosensors and cancer treatment Biosensors and cancer treatment DNA Nanotechnology DNA Nanotechnology Bioartificial organs nanobiological devices Bionanotechnology applications in medicine Drug designs and nanobiotechnology Drug designs and nanobiotechnology Drug designs and nanobiotechnology
Instructor/s Assoc. Prof. Dr. Serap UZUNOĞLU
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Bioavailability, Bioaccessibility Code : FKM5165 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This lecture covers all aspects of bioavailability, as related to environmental contaminants.
Learning Outcomes and Competencies
1. Understanding of Bioavailability and Bioaccessibility concepts 2. Understanding of the importance of Bioavailability and Bioaccessibility on the environment and health
Textbooks and /or References
Bioavailability, Bioaccessibility and Mobility of Environmental Contaminants, John. R. Dean
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
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Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Sample preparation and analytical techniques for persistent organic pollutant analysis of environmental contaminants Sample preparation for persistent organic pollutant analysis Comparison of persistent organic pollutant analytical techniques. Methods used to assess bioavailability of metals. Extraction techniques Methods used to assess bioavailability of persistent organic pollutants. Extraction methods to estimate bioavailability of POPs Methods used to assess bioaccessibility. Human physiology Asessment of in- vitro gastro intestinal methods Selected case studiess on bioavailability environmental contaminants. Selected case studies on bioaccessibility of environmental contaminants. Selected case studies mobility of environmental contaminants.
Instructor/s Prof.Dr. Derya KARA FISHER
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: High Resolution NMR
Code : FKM5166
Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Description of high resolution NMR techniques
Course Objectives
Learn the high resolution NMR techniques and their applications in organic chemistry
Learning Outcomes and Competences
At the end of course, the concepts and applications of high resolution NMR techniques are learned.
Students can use high resolution NMR techniques in organic chemistry to solve the structural
problems.
Textbook and /or References
1. Metin Balc ı, "Nukleer Manyetik Rezonans", METU Press, Ankara, 2000. 2. T. D.W.Claridge, "High-Resolution NMR Techniques in Organic Chemistry", Pergamon Press. 1999.
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Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Resonance phenomena in 1H-NMR and
13C-NMR
Chemical Shift in 1H-NMR and
13C-NMR
Spin-Spin Coupling in 1H-NMR
Spin-Spin Coupling to different protons NMR Spin Systems (A2, AB, AX, A3, A2B, A2X, ABC and ABX systems) NMR Spin Systems (A2B2, A2X2, AA’BB’, AA’XX’ systems) NMR Shift Reagents Dynamic NMR systems New techniques in
13C-NMR spectroscopy
Pulse NMR Spectroscopy Multiple-Pulse NMR Experiments Two-Dimensional NMR Spectroscopy; COSY, HETCOR, HMBC Experiment 13
C-13
C Correlation; INADEQUATE Experiment 2D-NOESY Experiment
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: Electrochemical Technologies Code : FKM5167 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Basic principles of Electrochemistry with applications to various systems to teach
Learning Outcomes and Competencies
Know the basic principles of electrochemistry
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The foundations of electrochemistry Electrode potentials Electrode reactions Electrolysis Simple battery Electrolytic coating Electrochemical metal processing Electrolytic recovery of metals Electrolytic coating technique as metals Silver-plated Gold plated Electrolytic oxidation and reduction Coating on nonconductor Electrolytic coating with the polymer
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Advanced Physical Chemistry I
Code : FKM5168 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
System, cases, process is based on the theme. Systems based on macroscopic and microscopic features.
Learning Outcomes and Competencies
Know the basics of Physical Chemistry
Textbooks and /or References
Atkins, P.W. (1998). Physical Chemistry. Oxford University Press Robert G. Mortimer (1993 Physical Chemistry The Benjamin/Cumming Publishing Company, Inc. Sonntag R. E., Wylen G. J. V. (1982) Fundamental of Statiscal Thermodynamics , Benjamin Cummings Publishing Cmpany, London
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Concepts and laws of thermodynamics Real gases and fugasite Activity Physical liquid surface Phase diagrams and three-component systems Chemical equilibrium Free Energy Calculations and the Maxwell relations Electrochemical equilibrium Statistical Concepts Special Distribution of the Macro and Micro Status Probability Thermodynamics Maxwell-Boltzman, Fermi-Dirac, Bose-Einstein Statistics Sharing Function Law of thermodynamics I, II, and III and explained by the statistical approach Statistics on the use of thermodynamic
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: History of The Chemistry Code : FKM5169 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The development of chemical science and ancient and 21.yy industry and some aspects will be addressed. All students interested in the chemical sub-branch of the historical development of chemistry, is understood as a chronological way of teaching.
Learning Outcomes and Competencies
Knows the historical development of chemistry
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The historical view of Chemistry Chemistry and its roots in the chemical sense of ancient civilization Ancient, Ancient Egypt, China and Indo Chemistry Chemistry and chemistry related to the practice until Christ written in the first source Chemical theory and Alchemy age until Christ Periodic system, and modern chemical symbolization Chemists in 18.yy Chemists in 19.yy Chemists in 20.yy Chemists in 21.yy Developments in physical and organic chemistry Experimental art and analysis of technique Understanding of modern chemistry The development of chemistry teaching and industry in Turkey
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Organic Named Reactions I Code : FKM 5170
Institute: BAÜ Institute of Science and Technology Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework
Other Total Credit T+A+L=Credit
ECTS
42 158 3+0+0 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Some named reactions and their mechanisms in organic chemistry.
Course Objectives
To introduce named reactions in organic chemistry and to inform about their reaction mechanisms.
Learning Outcomes and Competences
1- To recognise the reactions as known special names 2- To get information about mechanism of reactions.
Textbook and /or References
Name Reactions (Jie Jack Li) Named Organic Reactions 2 nd Edition (Thomas Laue and Andreas Plagens) Name Reactions for Functional Group Transformations ( Jie Jack Li and E. J. Corey) http://www.organic-chemistry.org/namedreactions/
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, …)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Aldol Condensation, Acetoacetic Ester Condensation Azo Coupling Beckmann Rearrangement, Baeyer-Villiger Oxidation Benzoin Condensation, Benzilic Acid Rearrangement Claisen Condensation Clemmensen Reduction Curtius Rearrangement (Reaction), Cope Elimination Diels-Alder Reaction Favorskii Reaction Friedel-Crafts Reactions Gabriel Synthesis Grignard Reaction Hell-Volhard-Zelinsky Reaction, Haloform Reaction Hofmann Elimination
Instructors Assoc. Prof. Dr. Onur TURHAN, Prof. Dr. Hilmi NAMLI
e-mail [email protected], [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Synthesis Methods of Inorganic Compounds
Code : FKM 5171 Institute: FBE Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
3 3 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To synthesize new type inorganic compounds (metal borates, metal borophosphates, metal oxide and metal vanadates) using synthesis metods.
Learning Outcomes and Competencies
Knows the methods of synthesis and can be easily implemented in the laboratory. The novel compounds can be designed using one of the synthetic methods taught by itself and perform their synthesis experiments.
Textbooks and /or References
Lecture notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams - - Midterm Exams
Quizzes - - Midterm Controls
Homework - - Term Paper
Term Paper, Project Reports, etc.
x 50 Oral Examination
Laboratory Work - - Final Exam
Final Exam x 50 Other
Other - -
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Solids Bonding in Solids Optical Properties of Solids Magnetic and dielectric properties of Solids Conductivity properties of Solids Metal Borates and Metal Borophosphate Metal Oxide and Metal Vanadates High-Temperature solid-state synthesis method and Co-Precipition method. Microwave Method and Hydrothermal Method Nanostructure Compounds Synthesis Methods using preparation of Solids Synthesis samples Synthesis samples Synthesis samples
Instructor/s Yrd. Doç. Dr. Berna Bülbül
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Food regulations Code :FKM 5172 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand food regulations
Learning Outcomes and Competencies
To learn food regulations
Textbooks and /or References
The course instructor's prepared notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Food Control Directive The role of regulation and the importance of Notification of food products Turkish Food Codex Search papers in the Turkish Food Codex What is TEKBİM The specification search in TEKBİM What is TS TS 's update Organization of technical specifications The features examined Analysis methods Analysis of assessment results According to the results of analysis report
Instructor/s Doç. Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: Selected Topics in Physical Chemistry I
Code : FKM5173 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Physical chemistry and in various sub-branches, combined with recent developments in the world will be presented
Learning Outcomes and Competencies
Know the recent work of the various sub-topics and Physical Chemistry
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Physicochemical concepts Kinetic Theory and Ideal Gas Law Heat Capacity of Gas Comments of Cv and Cp Values of Molecular Ideal gas Thermochemical Equations Standard Enthalpy of Formation Bond Enthalpy and Bond Energies Entropy and the Laws of Thermodynamics Entropy The Molecular Basis Free Energy and Chemical Equilibrium Equilibrium Constant in Real Gas System Free Energy and Equilibrium Constant Relationship Molecular Approach to the Third Law Internal energy and entropy Pressure and Temperature Dependence
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Macrocyclic Compounds Code :FKM5174 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits Lecture Application Laboratuary Project/
Field Study Hw. Other Total T+A+L=
Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding macrocyclic compounds chemistry
Learning Outcomes and Competences
1) Should understand naming of macrocyclic compounds 2) Should classify the macrocyclic compounds. 3) Should write synthesis mechanism of macrocyclic compounds
Textbook and /or References
1) “Organic Chemistry”, T.W.G.Solomons, John Wiley (1992) 2) “Advanced Organic Chemistry”, J.March, John Wiley (1992) 3) “Advanced Organic Chemistry”, Fifth Edition, F.A. Carey and R.J. Sundberg, Springer (2007) 4) “Crown Ethers and Cryptands”, G.Gokel, The Royal Society of Chem. (1994) 5) “Phthalocyanines Materials”, N.B.McKeown, Cambridge Univ. press, (1998) 6) “Calixarenes”, Ed.by Z.Asfari, Kluwer Academic (2001)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ...)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
General sentetic methods for macrocyclic compounds High dilution and template effect Host-guest interactions of macrocyclic compounds Crown ethers and their properties Classification of crown ethers and synthesis technics Aza- and tio-crown ethers Coumarins, chromones and their macrocyclic analogs Coumestans, flavons and their macrocyclic analogs Cryptands and synthesis technics Phthalocyanines, synthesis and properties of metallo and metal free phthalocyanines Porphyrines and their natural analogs Calixarenes Cavitands and catananes Supramolecular heterocyclic compounds
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Strained Hydrocarbons Code : FKM5175 Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Describe the properties and synthesis of strained hydrocarbons.
Course Objectives
Learn what the strained hydrocarbons are in organic chemistry and analyze their syntheses and reaction mechanisms.
Learning Outcomes and Competences
At the end of course, the origin of strain in molecules are learned. Students can learn and describe the properties and synthesis of strained hydrocarbons in organic chemistry.
Textbook and /or References
1. Helena Dodziuk, “Strained hydrocarbons: beyond the van't Hoff and Le Bel hypothesis”, Wiley Inc., 2009. 2. Arthur Greenberg, Joėl F. Liebman,”Strained organic molecules”, Academic Pres, 1978.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The origin and types of strain Strain energy Structures of strained hydrocarbons Chemistry of cyclopropanes Chemistry of cyclopropenes Distorted-saturated hydrocarbons Cage molecules Distorted-alkenes Strained alkenes Strained allenes Pyramidalized alkenes Pyramidalized alkenes Strained aromatic compounds Angle-strained cycloalkynes
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: Solvent Effects in Organic Chemistry
Code :FKM 5176 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits Lecture Application Laboratuary Project/
Field Study Hw. Other Total T+A+L=
Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding solvent effects in organic chemistry
Learning Outcomes and Competences
1. Learn the solvent effects in organic chemistry 2. Learn the importance of solvent in organic chemistry
Textbook and /or References
“Solvents and Solvent Effects in Organic Chemistry”, Third Edition, C.Reichardt, (2003) Wiley-VCH
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ...)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Solute-Solvent Interactions Classification of Solvents Solvent Effects on Acid/Base Equilibria Solvent Effects on cis/trans or E/Z Isomerization Equilibria Solvent Effects on Host/Guest Complexation Equilibria Influence of Specific Anion Solvation on the Rates of SN and other Reactions Protic and Dipolar Aprotic Solvent Effects on the Rates of SN Reactions Solvent Effects on Mechanisms and Stereochemistry of Organic Reactions Solvent Effects on the Absorption Spectra of Organic Compounds Solvent Effects on UV/Vis Spectra Solvent Effects on Infrared Spectra Solvent Effects on Nuclear Magnetic Resonance Spectra Nonspecific Solvent Effects on NMR Chemical Shifts Specific Solvent Effects on NMR Chemical Shifts
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: The Design of Synthesis in Synthetic Organic Chemistry
Code : FKM 5177 Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Learn to design of syntheses of organic molecules
Learning Outcomes and Competencies
1)To recognize importance of stereochemistry in the design of synthesis 2)To learn the protecting groups 3)To recognize transformations of founctional groups 4)To design the syntheses of organic molecules
Textbooks and /or References
1) Modern Organic Synthesis: An Introduction, George S. Zweifel, 2007, W. H. Freeman and Company 2) Reaction Mechanisms in Organic Synthesis, Rakesh Kumar Parashar, 2009, Wiley 3) Modern Methods of Organic Synthesis, W. Carruthers, 2004, Cambridge University Press.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Synthetic design Stereochemical considerations in planning syntheses Stereochemical considerations in planning syntheses Protection of functional groups Protection of functional groups Functional group transformations: oxidation-reduction Functional group transformations: oxidation-reduction Functional group transformations: the chemistry of carbon-carbon π bonds and related reactions Formation of carbon-carbon single bonds via enolate anions Formation of carbon-carbon single bonds via enolate anions Formation of carbon-carbon bonds via organometallic reagents Formation of carbon-carbon bonds via organometallic reagents Formation of carbon-carbon π bonds Syntheses of carbocyclic systems
Instructor/s Yrd. Doç. Dr. Arzu GÜMÜŞ PALABIYIK
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Theoretical Approaches in Organic Chemistry I
Code : FKM 5178 Instutition: SCIENCE-LITERATURE Programme: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 200 3+0+0 8
Semester 6 Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The applications of theoretical methods in organic chemistry.
Learning Outcomes and Competencies
1-Have information about theoretical methods 2-Understand the position of theoretical methods in organic chemistry
Textudbooks and /or References
Steven M. Bachrach, “Computational Organic Chemistry” Wiley-2007 Errol Lewars “Computational Chemistry” Kluwer Acedemic Publishers -2004
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams
Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The importance of quanum chemistry for organic chemists Approaches to Schrodingen Equation What is possible with theoretical chemistry Potential energy surface and geometry optimization Molecular mechanic Quantum mechanic Ab initio calculations Density Functional Theory General view to theoretical chemistry softwares Presentation of Gaussian Geometry opimization in gas phase with Gaussian Solvent media calculations Geometry opimization in solvent media with Gaussian Applications of geometry optimization
Instructor/s Assoc. Prof. Sedat KARABULUT
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Equilibrium Reactions in Organic Chemistry
Code : FKM5179 Instutition: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 200 3+0+0 8
Semester 6 Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To have information about the equilibrium reactions in organic chemistry
Learning Outcomes and Competencies
1-Equilibrium concept and its meaning in organic chemistry would be known 2-The kinds of equilibrium reactions in organic chemistry would be known 3-The parameters which effects the relative concentrations of equilibriates would be detected and and interpreted
Textudbooks and /or References
John E. Leffler ve Ernest Grunwald, “Rates and Equilibria of Organic Reactions” Wiley-1989
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams
Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Discussion of equilibrium concept in general meaning The position of equilibrium concept in organic chemistry Isomerization Rotamerization Tautomerization The kinds of tautomerization and the difference of tautomerization from rezonance Dimerization Qualitative and quantitative detection methods in organic equilibrium reactions The parameters which effect the relative concentrations of equilibriates 1H-NMR in organic equilibrium reactions, advantages and disadvantages
FT-IR in organic equilibrium reactions, advantages and disadvantages The interaction between the Free Gibbs Energy and equilibrium constant Theoretical approaches on identification of equilibrium constant Discussions and applications on the qualitative and quantitative informations of some model organic equilibrium systems
Instructor/s Assoc. Prof. Sedat KARABULUT
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Crystals and Crystallography Code : FKM5180 Institute:Science institute Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 0 0 0 58 100 200 3+0+0=3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Theoretical knowledge of crystals and crystallography about the systematic and comprehensive, to give students the advanced solid-state concepts of chemistry to develop the ability to think about.
Learning Outcomes and Competencies
Crystals and Crystallography of advanced subject knowledge to teach the students
Textbooks and /or References
1)Donald E. Sands, “Introduction to Crystallography”,Dover publications, Inc.. 2) Alexander MCPherson, “ Basic Introduction to Macromolecular Crystallography”,A John Wiley &
Sons, Inc., Publication.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
Mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 25 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The Asymmetric Unit The Unit Cell The Lattice of crystal The Symmetry and Equivalent Positions The Unit Cell Derivatives and Bravis Cells Primitive and Centered Lattice Miller Indices and Planes Tree Dimensional Space of Crystal Closed Packing İonic Crystals Covalent Crystals Space Groups Relationship Between Space Groups, Point Groups and Physical Properties The Use of Space Group Tables and Examples
Instructor/s Assos. Prof.Dr. Figen Kurtuluş
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Advanced Food Chemistry
Code : FKM5181
Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 - - - 28 130 200 3 8
Semester Autumn /Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand food component and the chemical composition of these components.
Learning Outcomes and Competencies
To learning food component and the chemical composition of these components
Textbooks and /or References
The course instructor's prepared notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Identification and classification of food compositions The structure and functions of carbohydrates The structure and function of proteins The structure and function of oil The structure and function of vitamins The structure and functions of mineral substances Structure and kinetics of enzyme Non-nutritive substances ( alcohol , spices, additives, probiotics and prebiotics ) Food additives Quality of food stuffs Storage methods of food Toxic substances and contaminants in foods Natural colorants Naturally occurring flavoring agents in foods
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: Inorganic Structural Chemistry Code : FKM 5183 Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This course will focus on the basic concepts and affects on the formations and properties of inorganic compounds
Learning Outcomes and Competencies
The purpose of the course is to provide on the basis of a general look for inorganic compounds to understand their structures.
Textbooks and /or References
Anorganik Kimya, Saim ÖZKAR, 6. Baskı, Gazi Kitabevi, ANKARA Anorganik Kimya, D.F. Shriver, P.W. Atkins, 3. Baskı, Oxford Univ. Press.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Structures of inorganic compounds Bonding models in inorganic chemistry Ionic bond Metallic bond Crystal Structure Covalent bond Molecular Orbital Theory Intermolecular Forces Introductory to symmetry analysis Symmetry aplications Character tables and interpretations Symmetry of molecular vibrations Spectroscopic approaches to chemical bonds Spectroscopic approaches to chemical bonds
Instructor/s Asist. Prof. Dr. Çiğdem HOPA
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Techniques of Enzyme Purification
Code : FKM5184
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand the techniques of enzyme purification
Learning Outcomes and Competencies
To learn the function techniques of enzyme purification
Textbooks and /or References
The course instructor's prepared notes
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
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Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The Preparation of Enzymes Exctract Enzyme Sources Ectraction of Enzyme Conditions of Preservation The Samples of Enzyme Exctraction The Extraction from Tissues of Mammal The Extraction from Erythrocytes The Extraction from Soft Plant Tisssues The Concentration of Extract The Use of Dry Matrix Polymer Ultrafiltration, Dialysis, Salting-out Determination of Enzyme Concentration The Purification of Enzymes Electrophoresis of Protein
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURS E DETAILS
Course Title: Polimeric Composites and
Characterizat ion Code : FKM 5185
Institute:Scienceinstitute
Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/
FieldStudy
Homework Othe
r
Total Credit
T+A+L=Credit
ECTS
42 0 0 0 0 158 200 3+0+0=3 8
Semester Autumn Language Turkish
Course Type
Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives
Introduction ofthe compositedefinition, classificat ion, characteristics andteaching of application
areas
Learning
Outcomes
and
Competencies
Production of polymeric composite materials , characterization and learning of application areas
Textbooks
and /or
References
Polimer Kimyası: Mehmet Saçak, Gazi Kitabevi, 2004, Ankara, Turkiye.
M.M. Schwartz 'Composite Materials Handbook', Mc. Grav- HillCompany, 1984
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(% )
MidtermExams MidtermExams
Quizzes MidtermControls
Homework X 25 TermPaper
TermPaper, Project
Reports, etc. Oral Examination
LaboratoryWork Final Exam
Final Exam X 75 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
General description and classification of composite materials
Application areas of composite materials
Commonly used matrices
Fillers
Production methods of polymeric based composite materials
General description and classification of nanocomposite materials
The characterization methods of composite and nanocomposite materials
XRD and TEM analysis of composite and nanocomposite materials
Thermal properties of composite and nanocomposite materials
The mechanical properties of composite and nanocomposite materials
The physical properties of composite and nanocomposite materials
Examples of recent studies in the literature
Properties ofclay based polymericcomposites and application areas
PMMA-based composites,properties and application areas
Instructor/s Assoc. Prof. Dr. Yasemin TURHAN, Prof. Dr. Mahir ALKAN, Prof. Dr. Mehmet DOĞAN
e-mail [email protected] , [email protected], [email protected]
Website
GRADUATE COURS E DETAILS
Course Title:
The Characterization Methods Used in Physical
Chemistry
Code : FKM 5186 Institute:Science institute
Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/
FieldStudy
Homework Othe
r
Total Credit
T+A+L=Credit
ECTS
42 0 0 0 0 158 200 3+0+0=3 8
Semester Autumn Language Turkish
Course Type
Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives Describing of instruments used forcharacterizationand applications inphysical chemistryfield
Learning
Outcomes
and
Competencies
Determination of thermal, mechanical and physicochemicalpropert iesof materials with
usingthedevices
Textbooks
and /or
References
TheoryandMeasurementBookbyHenry E. KyburgJr.; Cambridge UniversityPress, 1984
DynamicMechanical Analysis: A PracticalIntroduction, Second Edition,Kevin P. Menard, 2008.
X-Ray Diffraction,B. E. Warren,1990.
Scientificart icles
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Mark as (X)
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(% )
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mark as (X)
Percent
(% )
MidtermExams MidtermExams
Quizzes MidtermControls
Homework X 25 TermPaper
TermPaper, Project
Reports, etc. Oral Examination
LaboratoryWork Final Exam
Final Exam X 75 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
X-Ray Di ffraction (XRD)
Fourier Transform Infrared Spectroscopy (FTIR)
Ultrav iolet–visible spectroscopy (UV-VİS)
Application of XRD, FTIR and UV-VİS Spectroscopy
Thermal gravimetric analysis(TGA)
Differential thermal analysis (DTA)
Differential scanning calorimetry (DSC)
Application of TGA, DTA and DSC
BET surface area analyzer
Contact Angle Measurements
Application of BETsurface area analyzer and Contact Angle Measurements
Particle Size Analysis
Dynamic Mechanical Analysis (DMA)
Application of Particle Size Analysis and Dynamic Mechanical Analysis
Instructor/s Assoc. Prof.Dr. Yasemin TURHAN, Prof. Dr. Mahir ALKAN, Prof. Dr. Mehmet DOĞAN
e-mail [email protected], [email protected], [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Nanoparticles
Code : FKM5187 Faculty or VS: SCIENCE-LITERATURE Programme: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 42 42 74 200 3+0+0 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To learn characterization and chemical synthesis methods of nanoparticles
Learning Outcomes and Competencies
1. He/she should learn new features of nanoscale materials 2. He/she should learn methods of chemical synthesis of nanoparticles 3. He/she should learn information about characterization o nanoparticles. 4. He/she should learn importance and synthesis methods of some nanoparticles such as magnetite, gold, zinc oxide, titanium dioxide.
Textudbooks and /or References
Introduction to nanoscale science and technology/ Ed.Massimiliano Di Ventra, Stephane Evoy, James R.Heflin. New York: Springer-Verlag, 2004. Metal nanoparticles: synthesis, characterization and applications/ Ed.Daniel L.Feldheim,Colby A.Foss. New York: Marcel Dekker, 2002.
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, basic concepts related to nanoscale. The new properties of nanoscale materials Introduction to the chemical synthesis methods: Co-precipitation methods Thermal decomposition method Sol-gel method, Reverse micelle method, Reduction method The methods of characterization of nanoparticles Direct measurement methods in particle size. (HRTEM, DLS, AFM,STEM) Indirect determinations in particle size (XRD,VSM) The synthesis of magnetite nanoparticles and applications The synthesis of gold nanoparticles and applications The synthesis of zinc oxide nanoparticles and applications The synthesis of titanium dioxide nanoparticles and applications The coating of nanoparticles The synthesis of polymeric nanoparticles and applications
Instructor/s Assoc.Prof. Dr.Seda BEYAZ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Biosensors Code : FKM 5188
Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - - 42 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The course focuses on the typical aspects of biosensors and its instrumentation. The student should be able to define biosensors as analytical devices incorporating a biological material (eg. tissue, microorganisms, organelles, cell receptors, enzymes, antibodies, nucleic acids etc), a biologically derived material intimately associated with, integrated within a physiochemical transducer, or transducing microsystem, which may be optical, electrochemical, thermometric, piezoelectric or
magnetic.
Learning Outcomes and Competencies
Be able to describe the most common sensor principles, Be able to have a broad understanding of the applications of various sensors and transducers for various measurements, Gain an ability to design and developed biosensors for different applications, Be conversant in biosensor design and which parameters will influence biosensor performance, Be able to evaluate critically on new biosensor technologies presented in the literature.
Textbooks and /or References
Enzyme and Microbial Biosensors”, Humana Press Inclined, (1998) A. Telefoncu (Ed.), “Biyosensorler”, Ege Universitesi, (1999) T. M.Canh,”Biosensors” Chapman and Hall, (1993)
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mark as (X) Percent
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Midterm Exams 1 40 Midterm Exams
Quizzes - Midterm Controls
Homework - Term Paper
Term Paper, Project Reports, etc.
- Oral Examination
Laboratory Work - Final Exam
Final Exam 1 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Basic principles of biosensors, Classifications, properties and characteristics of biosensors Electrochemical biosensors, Optic biosensors, Thermal biosensors, Piezoelectric biosensors, SPR based biosensors, Construction of biosensors Enzyme sensors, Microbial sensors, Immunogical sensors, DNA sensors, Performans factors of biosensors, Use and applicatios of biosensors
Instructor/s Assoc. Prof. Dr. Serap UZUNOĞLU
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: THE POLYMERIC COMPOSITE MATERIALS
Code : FKM5190
Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
3 3 4.5
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To gain knowledge and skills about the general characteristics of synthesized polymeric composite materials
Learning Outcomes and Competencies
1. Know the general properties of polymers 2. Recognizes the composite material 3. Characterize the polymeric composite materials
Textbooks and /or References
1. Fizikokimya, ATKİNS, Bilim Yayıncılık 2. Polimer Kimyası, Fonksiyonel Yaklaşım ve Uygulamaları, Prof. Dr. Turgay Seçkin, Seçkin
Yayınları
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to Composite Materials Usage of composite materials Components and classification of composite materials Major reinforcement and matrix elements Introduction to polymer chemistry The main polymeric structures Industrial Polymers Introduction to polymer matrix composites Properties of polymer matrix composites Classification of polymer matrix composites Synthesis and manufacturing methods of polymer matrix composites Methods for producing thermoset composite materials Methods for producing thermoplastic composite materials Characterization of polymer matrix composites
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Advanced Biochemistry I Code : FKM5191 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Fall and Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand biomolecules
Learning Outcomes and Competencies
To learn biomolecules
Textbooks and /or References
The course instructor's prepared notes
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If any,
mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Water Buffer solutions Amino acids Properties of amino acids Proteins Structure of proteins Functions of proteins Enzymes Carbohydrates Properties of Carbohydrates Lipids Properties of lipids Functions of lipids Nucleic acids
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: FLOW INJECTION METHODS Code : FKM5192 Institute:Science and Technology Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn and
Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Improvements of the knowledge of the students on the flow injection methods
Learning Outcomes and Competencies
1. To learn the definition and basics of flow injection system 2. To learn the usage of flow injection system 3. To learn flow injection combined system 4. To learn how to use of the flow injection system in the separation and preconcentration methods
Textbooks and /or References
1. Enstrümental Analiz İlkeleri, Skoog, Holler, Nieman, Çeviri editörleri; Esma Kılıç, Fitnat Köseoğlu, Hamza Yılmaz, Bilim Yayıncılık. 2. Elo Harald Hansen, Jianhua Wang, Flow Injection/Sequential Injection Analysis
ASSESSMENT CRITERIA
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mark as (X) Percent
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If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to flow injection Description and history of flow injection Basic concepts of flow injection Instrumentation Atomic spectroscopy and flow injection Atomic spectroscopy and flow injection (continued) Preconcentration methods Preconcentration methods (continued) Flow injection on-line preconcentration methods and applications Flow injection on-line preconcentration methods and applications (continued) On-line sample treatment systems Flow injection and vapour forming systems Application of flow injection methods Application of flow injection methods (continued)
Instructor/s Assoc.Prof. Dr. Cennet KARADAŞ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: IONIC EQUILIBRIUMS Code : FKM5193 Institute:Science and Technology Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn and
Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To teach the student theoretical and practical aspects of ionic equilibriums
Learning Outcomes and Competencies
1.Learning the thermodynamics of chemical equilibrium in acids and bases, and solubility 2. Determination ways of equilibrium constants of different chemical reaction types 3. Chemical reactions in the aqueous solutions 4. Solving problems about chemical equilibrium, acid and base concepts, solubility and complexation reaction 5.To learn effect of electrolytes on the ionic equilibrium 6. To learn activity and activity coefficient
Textbooks and /or References
Skoog, D.A., West D.M., Holler F.J., Fundamentals of Analytical Chemistry, Sixth Ed., USA, 1992
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Theoretical Courses Project Course and Graduation Study
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Equilibrium state, chemical equilibrium, free energy and equilibrium constant Determination of equilibrium constant Mathematical approaches used in ionic equilibrium calculations Aqueous solutions and equilibrium in aqueous solutions Acid-bases Polyprotic acids Precipitation equilibriums Solubility product and precipitation Introduction to complex formation equilibriums Advance approaches for complex formation equilibriums Redox equilibriums Effect of electrolytes on the ionic equilibriums Ionic intensity Activity, coefficient of activity
Instructor/s Assoc.Prof. Dr. Cennet KARADAŞ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Coordination Chemistry II Code : FKM 5201 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This course will focus on the basic concepts and affects on the formations and properties of coordination complexes. It is expected that students will read the textbook and work the problems as appropriate to augment the material presented in class.
Learning Outcomes and Competences
The purpose of the course is to teach the fundamental principles of coordination chemistry and various ways of thinking in inorganic research field.
Textbook and /or References
Advanced Inorganic Chemistry, F.Albert Cotton et al, Wiley-Interscience Inorganic Chemistry: Principles of Structure and Reactivity, J.E.Huheey, Prentice Hall Comprehensive Coordination Chemistry, G.W.Wilkinson FRS et al, ElsevierAnorganik kimya, Prof. Dr. Namık Kemal Tunalı ve , Prof. Dr. Saim Özkar, Gazi Kitabevi, Ankara 2005, Inorganic Chemistry, Keith F. Purcell, John Kotz,
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mark as (X)
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mark as (X)
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Midterm Exams Midterm Exams
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Homeworks X 20 Term Paper
Term Paper (Projects,reports, ….)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Stereochemistry of coordination chemistry Isomerism of metal complexes Geometrical isomerism Optical isomerism Other isomerism Spectrum of coordination compounds Disclosure and review of the electronic spectrum with CFT Disclosure and review of the electronic spectrum with MOT Stability of complex ions The synthesis and reactions of coordination compounds Kinetics and mechanism of coordination chemistry Use of coordination compounds Coordination compounds and polymers Nanochemistry of coordination compounds
Instructors Assoc.Prof. Dr.Figen Kurtuluş, Assoc.Prof. Dr. Çiğdem Hopa
e-mail [email protected]; [email protected];
GRADUATE COURSE DETAILS
Course Title: Advanced Inorganic Chemistry II
Code : FKM 5202 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the solid state and transition metal compounds with the advanced level.
Learning Outcomes and Competences
Students would gain the discuss the solids and transition metal complexes and their properties in detail with these knowledge’s.
Textbook and /or References
Inorganic Chemistry, Shriver &Atkins, Oxford press Anorganik Kimya, Saim Özkar, Gazi Publ. Inorganic Chemistry, Purcell & Kotz Publ.
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mark as (X)
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If any,
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Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The crystal structures of the solid materials Crystal structures, Unit cells, close packing structures Crystal structures of the metals, alloys, covalent and ionic bounded compounds Defects in crystals, Acids and Bases Interactions with the matter, Chemical bonds Van der Waals and London forces The effects of the chemical interactions on the solubility Some illustrative example for the related subjects Chemistry of the transition metals and related coordination compounds The chemical bond theories for the transition metal complexes Electronic Spectrum for the coordination compounds Organometalic Compounds Chemical bond for the metal-carbonyl ligand and IR spectroscopy Catalysis and illustrative examples for the related subjects
Instructors Prof. Dr. Halil GÜLER, Assoc. Prof. Dr. Figen KURTULUŞ
e-mail [email protected], [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: Advanced Organic Reactions II Code : FKM 5206 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester 1 Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Understanding reaction mechanisms of electrophilic substituon at saturated carbon, molecular
rearrengement, radical reactions, oxidation and reduction reactions, organic synthesis, heterocyclic
compounds, peptides and alkaloides
Learning Outcomes and Competences
1)Recognise and examine to organic reaction mechanisms 2)Examine of Subclasses of organic reaction mechanisms 3) Investigation of different behaviors at saturated and unsaturated systems 4) Learning to controllating factors to organic reaction mechanisms
Textbook and /or References
Organik Tepkimeler (Tahsin Uyar, Ankara üniversitesi Fen fakültesi), Advanced Organic Chemistry ( Francis A.Carey, University of Virginia), Organic Chemistry (Donald J.Cram, University of California
ASSESSMENT CRITERIA
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mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
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Homeworks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Electrophilic substituon at saturated carbon Examples of Electrophilic substituon at saturated carbon Moleculer rearrangement Named moleculer rearrangement Radical reactions and its importance Examples of radical reaction mechanisms Oxidation and reduction reactions Organic synthesis Named organic synthesis Heterocyclic compounds Reactions of heterocyclic compounds Peptides Alkaloides
Instructors Prof.Dr.Ümit ÇAKIR
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Selected Topics in Analytical
Chemistry
Code : FKM 5207
Institute: Institute of Science and Technology Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 28 130 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
To teach the role of analytical chemistry, various separation and determination methods, to emphasize the recent developments in analytical chemistry.
Learning Outcomes and Competencies
1) Be able to know the role of analytical chemistry in science. 2) Be able to know various separation and determination methods. 3) Be able to know some chromatographic techniques. 4) Be able to know recent developments in analytical chemistry.
Textbooks and /or References
1. Handbook of elemental speciation: techniques and methodology, Ed. Rita Cornelis, ISBN : 0-471-49214-0, England: John Wiley & Sons, 2003.
2. Handbook of elemental speciation II: species in the environment,food,medicine and occupational health, Ed. Rita Cornelis, ISBN : 0-470-85598-3, England: John Wiley & Sons, 2005.
3. Trace element speciation for environment, food and health, Ed. Les Ebdon, ISBN : 0-85404-459-0, Cambridge: SC, 2001.
4. Hyphenated techniques in speciation analysis, Joanna Szpunar, ISBN : 0-85404-545-7, Cambridge: Royal Society of Chemistry, 2003.
5. Principles of Instrumental Analysis, D.A.Skoog, J.J. Leary, 1992, 0-03-023343-7, Saunders College Publishing.
6. Atomic Absorption Spectrometry: Theory, Design and Applications, Ed. S.J. Haswell, 1991, ISBN: 0-444-88217-0, Elsevier Science Publishing.
7. Fundamentals of Analytical Chemistry, D.A. Skoog, D.M. West, F.J. Holler, 1992,0 -03-074922-0, Saunders College Publishing.
8. Spectrochemical analysis by atomic absorption and emission, L.H.J. Lajunen, ISBN: 0-85186-873-8, Cambridge: Royal Society of Chemistry, 1992.
9. Applications of atomic spectrometry to regulatory compliance monitoring, S.W. Jenniss, ISBN : 0-471-19039-X, New York: Wiley-VCH, 1997.
10. Selected methods of trace metal analysis: biological and environmental samples, J.C.Van Loon, ISBN: 0-471-89634-9, New York: John Wiley and Sons, 1985.
11. Modern methods for trace element determination, C. Vandecasteele, ISBN: 0 -471-94039-9, Chichester: John Wiley and Sons, 1997
12. Trace element speciation for environment, food and health, Ed.Les Ebdon, ISBN: 0 -85404-459-0, Cambridge: SC, 2001.
13. Molecular basis of chromatographic separation, E. Forgacs, ISBN : 0-84937-696-3, New York: CRC, 1997.
14. Ion chromatography: principles and applications, P.R. Haddad, ISBN : 0-444-88232-4, Amsterdam: Elsevier, 1990.
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4
Chemical analysis Working area of analytical chemistry Utilization of statistics in analytical chemistry Laboratory Works, cleaning and confidence
5 6 7 8 9 10 11 12 13 14
Taking sample, storage and sample preparation Enrichment and separation methods Recent developments in molecular spectroscopic methods Recent developments in molecular spectroscopic methods Recent developments in atomic spectroscopic methods Recent developments in atomic spectroscopic methods Recent developments in chromatographic methods Recent developments in chromatographic methods Combined techniques Combined techniques
Instructor/s Prof.Dr.Derya Kara Fisher
e-mail [email protected]
Website
GRADUATE CURRICULUM DETAILS
Course Title:Advanced Analytical Chemistry II Code : FKM 5208
Name of the Programme: Chemistry
Master and PhD
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
3 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Introduction to Spectroscopic Methods of Analysis, Fundamental principles of Absorption and emission, Atomic
spectroscopy; Atomic absorption spectrometry methods, Atomic absorption spectrometry, Atomic emission spectrometry:f lame emission spectrometry, Inductively coupled plasma emission spectrometry, Molecular spectroscopy UV-vis spectrometry, Infrared spectrometry, Luminesans spectrometry, Comparison of the methods,
Applications
Course Objectives
To introduce fundamentals and instruments of atomic and molecular spectroscopic analysis
Learning Outcomes and Competences
Students who complete this course should;
-to understand fundamental principles and theories of atomic and molecular spectroscopic techniques -to understand instrument components of atomic and molecular spectroscopic techniques -be able to learn how a spectrometer is operated. -be able to compare these techniques w ith each other according to accuracy, sensitivity, precision and selectivity.
Textbook and /or References
1-Fundamentals of Analytical Chemistry, Skoog, West, Holler and Crouch eighth edition 2004 2-Principles of Instrumental analysis D.Skoog, F.J.Holler, T.A.Nieman fif th edition,1998.
3-Analytical Chemistry, Gary D.Christian, John Wiley Sons, Inc.5th Edition, 1994. 4-Statistics for Analytical Chemistry J.C.Miller and J.N.Miller, 3th Ed., Ellis Horw ood,
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homew orks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Week Subjects
1 2 3
4 5 6 7
8 9 10
11 12 13 14
Introduction to Spectroscopic Methods of Analysis, Fundamental principles of Absorption and emission, Atomic spectroscopy; Atomic absorption spectrometry,
Atomic absorption spectrometry Atomic emission spectrometry:f lame emission spectrometry, Inductively coupled plasma emission spectrometry, Inductively coupled plasma emission spectrometry,
Molecular spectroscopy UV-vis spectrometry, UV-vis spectrometry Infrared spectrometry,
Infrared spectrometry Luminesans spectrometry, Comparison of the methods, Applications
Instructors Prof.Dr.Nuri Nakiboğlu
e-mail [email protected]
Website http://kimya.balikesir.edu.tr
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Advanced Organic chemistry
laboratory techniques Code : FKM 5209
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homeworks Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To learn the basic methots of Advanced Organic chemistry laboratuar techniques and its application
in organic chemistry field.
Learning Outcomes and Competences
1-) Rrecognize to advenced laboratory materials. 2-) To understand the rules of advanced organic chemstry laboratory.
3-) To comprehend and apply the main techniques in advanced organic chemistry laboratory.
Textbook and /or References
1-RESEARCH TECHNIQUES IN ORGANIC CHEMISTRY Robert B. Bates Department of Chemistry University of Arizona
John P. Schaefer Dean, College of Liberal Arts University of Arizona 2-Denel Organik Kimya Prof. Dr. Ender ERDİK Ankara 1987
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Homeworks X 30 Term Paper
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Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Drying Drying Purification and storage of solvents Purification and storage of solvents Getting gases and its uses in reactions Getting gases and its uses in reactions Detail of organic synthesis Detail of organic synthesis Purifications of reaction products Purifications of reaction products Micro and macro reactions Micro and macro reactions Product characterization Product characterization
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Stereoelectronic Effects Code : FKM 5210 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To clarify the reason of the reaction mechanisms. Further knowledge than the stereo and steeric effects on the organic reactions.
Learning Outcomes and Competencies
1-The stereochemical properties and the affect in a reaction should be known. 2. Stereoelectronic effects on an orgnic molecule should be known.
Textbooks and /or References
Stereoelectronic effects, A.J. Kirby (Oxford scientific publications)
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction on stereo and steric effects on the organic reaction The electronic basis stereoelectronic effects The electronic basis stereoelectronic effects Effects on conformation Effects on conformation Effects on reactivity Effects on reactivity Substitutions at saturated centers Substitutions at saturated centers Additions Eliminations Rearrangements and fragmentations Radical reactions
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: Organometallic Chemistry II Code : FKM 5211 Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The chemistry of the Transition metal elements. Introduction and use in the organic reactions.
Learning Outcomes and Competencies
Should know the transition elements organometallics and their properties.
Textbooks and /or References
Organometallics, Ch. Elschenbroich, A. Salzer Complexes and Firs-Row Transition Elements, David Nicholls (MACMILLAN) http://www.ilpi.com/organomet/ Organic Chemistry, Solomons, Related Chapters. Inorganic Chemistry, J.E. Huheey, E.A. Keiter, R.L. Keiter. Molecular Chemistry of the Transition Elements, François Mathey Alain Sevin (WILLEY)
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
An Introduction of the transition metals and its properties against ligand. The 18-Valence Electron (18-VE) Rule
-Donor Ligands -Donor Ligands - - - Ligands - -
Metal-Metal bonds and Transition Metal Atom Cluster Metal-Metal bonds and Transition Metal Atom Cluster Organometallic Catalysts Organometallic Catalysts in the reaction
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: Spectroscopic Methods in Organic Chemistry II
Code : FKM 5212 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish or English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The usage of the UV, FTIR, H-NMR, C-NMR ve MS for the evaluation of the organic molecular structure. Equipment working methods and spectrum studies.
Learning Outcomes and Competencies
Should know the C-13 NMR and the MS spectrometric methods and spectrum interpretation
Textbooks and /or References
Spectroscopic Methods in Organic Chemistry, D.H. Williams, I. Fleming (McGraw-HILL-London) Organik Kimyada Spektroskopik Yöntemler, E. Erdik. (GAZİ yayın evi) Nükleer Manyetik Spektroskopisi. Metin BALCI (METU)
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A short introduction to the spectrophotometers C-NMR spectrometers C-NMR spectrometers in use C-NMR spectral evaluation C-NMR spectral evaluation C-NMR spectral evaluations with the examples C-NMR spectral evaluations with the examples Solution of the molecular structure from the C-NMR spectra Principle in the MASS Principle in the MASS and MASS spectra Evaluation of MASS spectra Solutions of the structure from the UV, IR ve H-NMR, C-NMR, MASS spectra Solutions of the structure from the UV, IR ve H-NMR, C-NMR, MASS spectra
Instructor/s Prof. Dr. Hilmi NAMLI, Assoc. Prof. Dr. Onur TURHAN
e-mail [email protected],
Website http://w3.balikesir.edu.tr/~hnamli/
GRADUATE COURSE DETAILS
Course Title: Advanced Enzyme Kinetics Code : FKM 5214 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The enzymes which catalyzed the metabolic pathways and their kinetics are given in this lecture.
Learning Outcomes and Competencies
To learn enzyme kinetics.
Textbooks and /or References
Efficient,Enzyme Kinetics Oxford press, Biochemistry/Voet
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x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The structure of enzymes and enzymatic reactions The principals of enzyme kinetics Michaelis constant and maximum velocity determination Inhibitor competition in the enzymatic reactions The effect of inhibitor to the reaction kinetics in the enzymatic reactions Activators in the enzymatic reactions The calculation of velocity strenght with intermediate step model in the enzymatic reactions General scheme of enzymatic kinetic reactions Kinetic Applications Kinetic Applications Kinetic Applications Kinetic Applications Kinetic Applications Kinetic Applications
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
Advanced Polymer Chemistry II
Code : FKM5219
Institute: Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
3 0 0 --- --- --- 3 3+0+0=3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of the parameters that affect the physical properties of polymers.
Learning Outcomes and Competencies
The student knows that physical behaviour of polymers.
The student knows that behaviour of polymer solutions.
Textbooks and /or References
Y. Gnanou, M. Fontanille, Organic and Pyhsical Chemistry of Polymers, ISBN:978-0-471-72543-5, Printed in ABD I. Teraoka, Polymer Solutions, An İntroduct,on of Physical Properties, ISBN:0 -471-38929-3,2002
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Stereoisomerism Polymer Morphology Molecular Weight of Polymers Polymer Solubility and Solutions Polymer Solubility and Solutions Polymer Solubility and Solutions Temperature Effect on Polymeric Structure Temperature Effect on Polymeric Structure Mechanical Properties of Polymers Mechanical Properties of Polymers Mechanical Properties of Polymers Practical experience in the laboratory Practical experience in the laboratory Evaluation of practical experience of working in the laboratory
Instructor/s Doç. Dr. Taner TANRISEVER
e-mail [email protected]
Website http://taner.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Lipid Metabolism and Membrane Biochemistry
Code : FKM 5221
Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 28 - 28 14 88 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
In this lecture lipids and membrane proteins and their properties will be proposed
Learning Outcomes and Competencies
To learn lipids and membrane proteins and their properties.
Textbooks and /or References
Efficient, Stryer Biochemistry
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x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Lipid classification Lipid digestion Absorption and transport
Fatty acid - and W- oxidation Cholesterol metabolism Fatty acid biosynthesis Regulation of fatty acid metabolism Metabolism of cholesterol, glycerophospholipids and sphingophospholipids Common features of biological membranes Membrane proteins Fluid mosaic model of membrane structure Control of membrane fluidity Membrane transport assembly Membrane channels
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Chemical Applications of Group Theory II
Code : FKM5224 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the group theory principles for the chemical applications
Learning Outcomes and Competences
Students will use their group theory knowledge’s for the chemical applications.
Textbook and /or References
Chemical Applications of Group Theory, F. Albert Cotton, Wiley Interscience
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Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Symmetry aspects of molecular orbital theory Applications of general principles Hybrid Orbitals Molecular Orbitals for ABn Type Molecules General Applications Ligand field theory Construction of the energy level diagrams Estimation of the orbital energy levels Selection rules and polarizations Some illustrative examples for the related parts Molecular Vibrational Spectroscopy General principles The symmetry and normal vibrations Some illustrative examples for the vibrotional spectroscopy
Instructors Prof. Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: Advanced Solid-State Chemistry II
Code :FKM5225 Institute:Science institute Field: Chemstry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- 58 100 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The structures of various compouds based on crystals, electronic properties and its conductivity theoretical knowledge about the systematic and comprehensive, to give students the advanced solid -state concepts of chemistry to develop the ability to think about.
Learning Outcomes and Competencies
The structures of various compouds based on crystals, electronic properties and its conductivity o f advanced subject knowledge to teach the students
Textbooks and /or References
1)Lesley E. Smart and Elaine A. Moore, “Solid State Chemistry”, Taylor&Francis 2)Antony R. West, “ Basic Solid State Chemistry”, John Wiley & Sons,Ltd.
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Homework X 25 Term Paper
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Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Bonding in Solids and Electronic Properties, Free Electron Theory, Molecular Orbital Theory Bands in d-Block Compounds, Transition Metal Monoxides Ionic Conductivity in Solids Non-stoichiometric Compounds Polyacetylene and Related Polymers Molecular Metals Polymers and Ionic Conduction, Rechargeable Lithium Batteries Graphite and Fullerene Zeolites Clay Minerals Optical Properties of Solids Magnetic and Dielectric Properties Superconductor Materials Nanomaterials
Instructor/s Assos. Prf.Dr. Figen Kurtuluş
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Advanced Biochemistry Laboratory Techniques-II
Code : FKM 5226 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
3 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To comprehend advanced biochemistry laboratory techniques.
Learning Outcomes and Competencies
To learn advanced biochemistry laboratory techniques.
Textbooks and /or References
Biochemical techniques theory and practise, John F.Robyt, Bernard J. White, Biyomoleküller Teori ve Uygulamalarıyla , Prof. Dr. Oktay ARSLAN , Balıkesir 2003
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x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10
11 12 13 14
Electrophoretic techniques Paper, cellulose acetate electrophoresis Polyacrylamide gel electrophoresis Immunoelektrophoresis, Isoelectric focusing Specific application of these techniques into the proteins Oligopeptides Nucleic acids Oligonucleotides Application of qualitative and quantitative methods for detection and determination of biochemical molecules Enzyme inhibition and determination of enzyme species Enzyme inhibition and determination of enzyme species Enzyme inhibition and determination of enzyme species Enzyme inhibition and determination of enzyme species
Instructor/s Assist.Prof.Dr. Semra IŞIK
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Enzyme Immobilization Code : FKM5227
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Enzymes are purified from alive sources which provides expensive conditions, for this purpose with enzyme immobilization techniques this lecture aim will give the techniques of enzyme applications .
Learning Outcomes and Competencies
To learn enzyme immobilization.
Textbooks and /or References
Efficient Biochemistry/Stryer Biochemistry/Voet
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x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13
14
Enzymes and Proteins Immobiilization What is enzyme Immobilization? The differences between an immobilized enzyme and a free enzyme Enzyme Immobilization Techniques I Enzyme Immobilization Techniques II Covalent and Ionic bindings Entrapment in the matrix, enzyme immoblization on polymer materials Entrapment in the matrix, enzyme immoblization on polymer materials The importance of enzyme Immobilization The importance of enzyme Immobilization The applications of enzyme immobilization in the industry The entrapment methods of peroxidase and polyphenoloxidase on Sepharose 4B and a polymeric material The entrapment methods of peroxidase and polyphenoloxidas e on Sepharose 4B and a polymeric material
Instructor/s Doç. Dr. Nahit Gençer
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: ALGORITHM AND TECHNIQUES OF COMPUTER PROGRAMMING
Code : FKM 5229
Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Laboratuary Project/
Field Study Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Teaching of the computer programming for the crystallographic problems.
Learning Outcomes and Competences
Students could be written Fortran and Pascal programs for the crystallographic problems.
Textbook and /or References
Fortran 77, F. Tokdemir, ODTÜ Press. Pascal , Naci Atlan, Alfa Press. Turbo Pascal, İ. Akman, F. Selbes, ODTÜ Press Elements of X-ray Diffraction, Cullity & Stock, Printice Hall Press.
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to the some of the computer programming languages (Fortran, Pascal etc.) Algorithms and Flowcharting Samples of algorithms and flowcharts for some mathematical and technical problems Illustrative examples Algorithms and Flowchartings of the some problems related with the crystallographic calculations Illustrative examples and problem solving Writing of the Fortran programs for some algorithms and flowcharts Illustrative examples Writing of the Pascal programs for some algorithms and flowcharts Illustrative examples Writing of The program codes related with the Miller indices for the possible hkl values The calculation of the crystallographic unit cell parameters by writing computer programs The developments of the programs for the crystal parameters Some illustrative examples for the known crystal systems
Instructors Prof. Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: Preconcentration Methods Code : FKM5231 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The teaching of preconcentration methods
Learning Outcomes and Competencies
The understanding of the selection which preconcetration method should be used in the analysis
Textbooks and /or References
Preconcentration of trace elements; Zolotov, Yu.A. Separation methods in chemical analysis Miller, James M.
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
An Introduction to Preconcentration methods Solvent Extraction Solid Phase Extraction Sorption methods Flotation Precipitation Co-precipitation methods Crystalisation method Sublimation Cloud point extraction Vapouration methods Electrochemical Methods Electrodepositation Electrodiffusion
Instructor/s Prof.Dr. Derya KARA FISHER
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title : Mechanism of electrophilic reactions
Code : FKM5233 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understand the electrophilic reaction mechanisms.
Learning Outcomes and Competencies
The electrophilic reaction mechanisms in organic chemistry are learned.
Textbooks and /or References
1) Organic Chemistry, T.W. Graham Solomons. 2) Advanced Organic Chemistry, Jerry March. 3) Mechanisms of Reaction, Celal TÜZÜN.
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Homework 40 Term Paper
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Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
View to aliphatic substitution reactions and mechanisms Electrophilic substitution with double bond shifts Reactivity, electrophilic properties of hydrogene Halogenation of aldehyde, ketones, carbocyclic acides and sulphoxides Electrophile containing nitrogen group, Sulphonation of aldehyde and ketones Stark enamine reaction Karbon elektrofiller Alifatik karbonların açılasyonları, Insertions of carbon reactions Metallic electrophiles Metallation with metal and strong phases Conversion of enolate to silit enol ether Investigation of leaving group
Instructor/s Prof. Dr. Turgut KILIÇ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: C13
-NMR Spectroscopy Code : FKM5234 Institute: Science Field: Chemistry
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understand the usege of 13
C-NMR Spectroscopy in the structure determination of organic molecules.
Learning Outcomes and Competencies
How can usage of 13
C-NMR Spectroscopy in the structure determination of organic molecules are learned.
Textbooks and /or References
1) Nucleer Magnetic Rezonance Spectroscopy, Prof. Dr. Metin BALCI / ODTÜ 2) Spectroscopic methods of Organic Chemistry, Prof.Dr. Ender ERDİK / Ankara Üniversitesi
ASSESSMENT CRITERIA
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mark as (X) Percent
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If any, mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Spectroscopic methods in organic chemistry History and applications of
13C –NMR
Basics of 13C-NMR Spectroscopy
Chemical shifts in 13C-NMR
Coupling constant 13C-NMR Analysis 13 C-NMR Nükleer Overhauser Effect (NOE) APT tecnics
INEP and DEPT Spektrums İki boyutlu NMR teknikleri COSY and NOESY Spektrums HETCOR Spektrums Evaluation of spectroscopic data Determination of structure
Instructor/s Prof. Dr. Turgut KILIÇ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Special Topics in Organic Chemistry II
Code : FKM 5236 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester 2 Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Chemistry of live, Mechanism of biological chemistry, Natural chemistry, photochemistry, conversation in organic chemistry, possible and impossible isomers, methane and miller experiment, benzyne and number of octane, Peasteur’s experiments and van’t Hoff-LeBel’s explanation, biological important alcohole and ethers, epoxy resins, sulphanilamide and sulpha drugs, NMR in biology and medicine, porphirines, morphine and other nitrogen’s drugs
Learning Outcomes and Competences
1)Understanding of live chemistry 2) Understanding to Mechanism of Biological chemistry 3)investigation of photochemistry 4 investigation of reaction of some drugs with biological important
Textbook and /or References
A guidebook to mechanism in organic chemistry (Peter Sykes, Christ’s college,Cambridge), Advanced Organic Chemistry ( Francis A.Carey, University of Virginia), Organic Chemistry (Donald J.Cram, University of California)
ASSESSMENT CRITERIA
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Midterm Exams Midterm Exams
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Homeworks X 40 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Chemistry of live Mechanism of biological chemistry Natural chemistry, photochemistry, conversation in organic chemistry Possible and impossible isomers, methane and miller experiment Benzyne and number of octane Peasteur’s experiments and van’t Hoff-LeBel’s explanation Quinones Sulphanilamide and sulpha drugs NMR in biology and medicine Porphirines Morphine and other nitrogen’s drugs Commercial detergents Age determination with amino acides Nucleic acids and viruses
Instructors Prof.Dr.Ümit ÇAKIR
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: ADVANCED X-RAY TECHNIQUES
Code : FKM5238 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the principles of the X-ray radiation, diffraction and also qualitative and quantitative analyses
Learning Outcomes and Competences
Student would discuss the XRD and XRF analyses better and truly after this course.
Textbook and /or References
Elements of X-ray Diffraction, Cullity&Stock, Printice Hall. X-Işınları Difraksiyonu, Cullity, Çeviri, Ali Sümer, İTÜ press. Fundamentals of Powder Diffraction and Structural Characterization of Materials, V. K. Pecharsky, P. Y. Zavalij, Kluwer Academic Publishers.
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Theoretical Courses Project Course and Graduation Study
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mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Properties of X-ray radiation Production of X-ray Geometry of the crystals Crystal systems, Lattice directions and planes, Miller indices Braggs law, Diffraction of X-rays Diffraction and crystal geometry Intensities of the diffracted x-rays The structure factors X-ray diffraction for the real crystals X-ray diffraction equipments and principles X-ray and the determination of the crystal structures X-ray Spectroscopy and experimental techniques The properties of the XRF instruments Qualitative and quantitative analyses by using XRD and XRF methods
Instructors Prof. Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURSE DETAILS
Course Title: Stereoorganic Synthesis II Code : FKM 5239 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homeworks Other Total T+A+L=Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of stereoorganic synthesis concepts
Learning Outcomes and Competences
1) To understand the basics concepts in sterochemistry 2) To know the designation methods of the sterochemistry of organic compound 3) It can be comprehended the factors affecting to the stereochemistry of organic compounds in organic synthesis
Textbook and /or References
1) “Organic Chemistry”, T.W.G.Solomons, John Wiley (1992) 2) “Advanced Organic Chemistry”, J.March, John Wiley (1992) 3) “Advanced Organic Chemistry”, Fifth Edition, F.A. Carey and R.J. Sundberg, Springer (2007) 4) “Organic Chemistry” Claiden, Greeves, Warren and Wothers , Oxford Univ. Press (2001) 5) “Organic Chemistry” G.M. Loudon, Oxford Univ. Press (2002)
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Theoretical Courses Project Course and Graduation Study
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mark as (X)
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If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ...)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Application and concepts of s tereoselective Application and concepts of s tereoselective, Application and concepts of stereospesific, Application and concepts of, stereospesific, Application and concepts of, regioselective, Application and concepts of, regioselective, Application and concepts of, regiospesific Application and concepts of regiospesific. Condensation reactions. Condensation reactions. Oxidation and reduction reactions. Oxidation and reduction reactions. Synthesis, methods and examples of stereochemical synthesis Synthesis, methods and examples of stereochemical synthesis
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Macromolecule Complexation
II Code : FKM 5240
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homewworks Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of macromolecule complexation
Learning Outcomes and Competences
1) To comprehend the logic of complexat ion of macrocyclic compound
2) To understend both İmportant of metal-organic complexes and Factors affecting to the
complexation,
3) It can be determinatied to comlexation equilibrium constant with Conductometry,
Potentiometry, and Methods of spectrophometric,
Textbook and /or References
1) David PARKER “Macrocycle Synthesis A Practical Approach” OXFORD UNIVERCİTY (1996) 2)François Diederich, Peter J. Stang, and Rik R. Tykwinski “Modern Supramolecular Chemistry “WILEY-VCH Weinheim (2008) 3) V.S. Sastri and al MODERN ASPECTS OF RARE EARTHS AND THEIR COMPLEXES Elsevier
Science; 1 edition (2003) 4) George Gokel “Crown Ethers and Cryptands” The Royal Society of Chem (1994) 5) Leonard F. Lindoy “ The chemistry of Macrocyclic Ligand Complexes” Cambiric Unv (1989) 6) Yoshihisa Inoue an G.W. Gokel “Cation Binding by Macrocycles”Marcel deccer (1990)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
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mark as (X)
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If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks x 30 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1
2 3 4 5
6 7 8 9
10 11 12 13
14
İntroduction to complexation,
İmportant of metal-organic complexes, İmportant of metal-organic complexes, Factors affecting to the complexation, Macrocyclic cavity,
Effects of side groups, Effects of ion load and metal radius, Solvent, effects of solvation, Methods and techniques of complexation,
Conductometry, Potentiometry, Methods of spectrophometric, Determination of KD with UV, ICP, and AAS
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: METHOD VALIDATION AND MEASUREMENT UNCERTAINTY IN CHEMICAL ANALYSIS
Code : FKM5241 Institute:Science Field: CHEMİSTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/S
pring Language Turkish/English
Course Type
Basic Scientific
Scientific
Technical Elective
Social Elective
Course Objectives
To introduce method validation and calculation of measurement uncertainty in chemical analysis, to prepare a document about validation and measurement uncertainty
Learning Outcomes and Competencies
1- Overviewing to chemical analysis steps 2- Understanding basic statistical treatment 3- Understanding method validation and measurement uncertainty of the used methods, seeing the effect of these to analysis results. 4-Calculating the uncertainty and preparing a traceable validation document.
Textbooks and /or References
1- EURACHEM Guide, The Fitness for Purpose of Analytical Methods, First Edition, 1998.
2-EURACHEM/CITAC Guide, CG 4 Quantifying Uncertainty in Analytical Measurement, 2th Edition, 2000. 3- EURACHEM Guide, Traceability in chemical measurement, 2003 4-Course Notes and papers.
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Theoretical Courses Project Course and Graduation Study
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mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The Importance of Chemical Analysis, Classification of Quantitative Analysis Methods, Steps in Quantitative Analysis, Errors in Chemical Analysis, Calibration Graphs used in Instrumental Analysis, Regression Analysis, Significance Tests, Laboratory Accreditation: Technical Criteria for accreditation, Validation: what, why, when, where, who and how?, Parameters of validation, instrument validation, method validation, Measurement uncertainty: fundamental terms, The process of measurement uncertanity estimation; Specification, identifying uncertainty sources, Quantifying of uncertainty, calculating the combined and expanded uncertainty, Reporting the result with uncertainty, traceability, Calculation examples. Calculation examples. Calculation examples.
Instructor/s Prof.Dr.Nuri Nakiboğlu
e-mail [email protected]
Website http://kimya.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Some instrumental methods and applications
Code : FKM 5244 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This course will focus on the introduction and application of the some spectroscopic techniques . It is expected that students will read the textbook and work the problems as appropriate to augment the material presented in class.
Learning Outcomes and Competences
Develop a framework and the ability to quickly understand a new, chemical analysis technique, understand the basics of chemical analysis, instrumental analysis and spectroscopic methods. The course will be provide common spectroscopic methods. The goal is not to make you an expert in one or more of the covered techniques. Have a overview of thermal characterization of materials
Textbook and /or References
Skoog, Holler & Nieman, Principles of Instrumental Analysis 5 th edition, 1998. Principles of Thermal Analysis and Calorimetry by P.J. Haines (Editor), Royal Society of Chemistry (RSC), Cambridge, 2002.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to Thermal analysis Thermogravimetric methods (TG) Differential thermal analysis (DTA) Thermometric titrimetry Introduction to Radiochemical methods Radioactive isotops and apparatus Neuttron activation methods Isotope dilution methods X-ray photoelectron spectroscopy X-ray fluorecance spectroscopy X-ray absorption spectroscopy Automated methods of analysis Luminecence Luminecence (continued)
Instructors Asist. Prof. Dr. Çiğdem HOPA
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: ADSORPTION Code : FKM5245 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The presentation and interpreting with experimental data of adsorption phenomenon; the using of adsorption technology in water and wastewater purifications; the expressing of the application areas of adsorption isotherms; the placing in analysis methods of adsorption; the interpreting of adsorption rate data and the explaining of adsorption mechanism; the determination of adsorbent amount according to the conditions water and wastewater pollution.
Learning Outcomes and Competencies
The analysing of adsorption data; the bringing in the application areas and the importance of adsorption process; the solving the adsorption problems; the performing the batch design of adsorption data
Textbooks and /or References
J.M. Smith, Chemical Engineering Kinetics, McGrawHill, 2000; Keith J. Laidler, Chemical Kinetics; Octave Levenspiel, Chemical Reaction Engineering, Wiley Inc., 1999; Marc A. Anderson and Alan J. Rubin, Adsorption of inorganics at solid-liquid inrefaces, Ann Arbor Science, 1981; Robert J. Hunter, Introduction to Modern Colloid Science, Oxford Science Publications, 1993; Paul C. Hiemenz and Raj Rajagopalan, Marcel Dekker, 1997.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 Adsorption theory: the principles of adsorption and adsorption forces, the definiation and differences of adsorption and absorption
2 The adsorption at solid-gas interfaces; the adsorption at solid-liquid interfaces; the adsorption at liquid-air interfaces; the adsorption at liquid-liquid interfaces
3 Adsorbents and their some physicochemical properties: zeolites, carbon, silica and alumina. 4 The calculation of specifice surface areas of adsorbents and porosity. 5 The adsorption affecting factors 6 Adsorption equilibrium 7 Adsorption isotherms: Langmuire, Freundlich, Henry, BET 8 Adsorption thermodynamics: equilibrium constant, adsorption heat, entrophy and free energy. 9 Adsorption kinetics: kinetic equations and their properties, diffusion coefficients, mass transfer
coefficients 10 Thermodynamic activation parameters 11 Surface reactions 12 Batch design 13 Analytical application areas of adsorption 14 The evaluation of adsorption and adsorption kinetic data
Instructor/s Prof.Dr. Mehmet DOĞAN, Prof.Dr. Mahir ALKAN, Associate Prof.Dr. Yasemin TURHAN
e-mail [email protected] [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: CATALYSIS Code : FKM5246 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The introduction of catalytic reaction mechanisms: homogen and heterogen catalytic processes; acid-base catalysts
Learning Outcomes and Competencies
The understanding of catalysis and its importance, the interpretation of the effects on the rate of the chemical reactions of catalysts, the determination of homogen and heterogen catalytice processes, catalysis mechansim, catalytic reactions.
Textbooks and /or References
J.M. Smith, Chemical Engineering Kinetics, McGrawHill, 2000; Keith J. Laidler, Chemical Kinetics; Octave Levenspiel, Chemical Reaction Engineering, Wiley Inc., 1999; Pilling and Seakins, Reaction Kinetics, Oxford Science Publications, 1999; Paul C. Hiemenz and Raj Rajagopalan, Marcel Dekker, 1997; Wright, An Introduction to Chemical Kinetics, John Wiley, 2004.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 The basic structure and mechanism of catalytic reactions 2 Homogen catalys: acid-base catalyst 3 The mechanism of acid-base catalysts, salt effect, acidity functions 4 The catalys in gas systems 5 Heterogen catalys 6 Surface area, cavity volume and density calculation of catalysts 7 The theory of heterogen catalyst 8 Prepreation and deactivation of catalyst 9 The rate calculation for catalyst deactivation in batch systems 10 Surface reactions, rate constant of adsorption and desorption 11 The rate equations from liquid phase concentrationson types on catalyst surface 12 The inventigation of portable events in heterogen reactions with constant bed 13 The inventigation of portable events in heterogen reactions with fluid bed 14 Reaction and diffusion at porous catalysts, prepration of catalysts
Instructor/s Prof.Dr. Mehmet DOĞAN, Prof.Dr. Mahir ALKAN, Associate Prof.Dr. Yasemin TURHAN
e-mail [email protected] [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: RHEOLOGY Code : FKM5247 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The understanding of the defination and importance of rheology, the learning of application areas of rheology, the interpreation of experimental data in terms of rheological models
Learning Outcomes and Competencies
The learning of the importance and application areas of rheology, experiment design, the interpretation and analysis of experimental data, the determination of flow properties of substances
Textbooks and /or References
White, J.L., Principles of polymer engineering rheology, Wiley, 1990; White, J.L., Twin Screw Extrusion, Hanser, 1991; Benbow, J. and Bridgwater, J., Paste flow and extrusion, Oxford, 1993; Barnes, H.A., Hutton, J.F. and Walters, K., An introduction to rheology, Elsevier, 1989.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 What is reology? 2 The science of deformation and flow 3 Kinematics of deformation and flow 4 Viscosity 5 Viscous substances 6 Elastic substances 7 Viscoelastic substances 8 Plastic substances 9 Viscometry and rheometer 10 Rheological models 11 Rheology of suspensions 12 Some reolojical applications 13 Rheological experiment design 14 The evaluation and interpretation of rheological data
Instructor/s Prof.Dr. Mehmet DOĞAN, Prof.Dr. Mahir ALKAN, Associate Prof.Dr. Yasemin TURHAN
e-mail [email protected] [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: REACTIVE INTERMEDIATES II Code : FKM5248
Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Carbenes, allenes, singlet oxygen, and their reactions and rearrangements
Course Objectives
Analyze the structure of strained-allene and singlet-oxygen Learn the generation of these reactive intermediates examined with reaction mechanisms.Learn the application of reactive intermediates on synthetic organic chemistry
Learning Outcomes and Competences
At the end of course, the concepts, generations and reactions with mechanisms of reactive intermediates; strained-allenes and signlet-oxygen are learned. Learned course subjects can be applied on synthetic organic chemistry
Textbook and /or References
1. Balcı, M., “Singlet Oksijen”, Doğa Bilim Dergisi, Temel Bilimler, Cilt 6, Sayı 3, 1982, Sayfa: 147-156. 2. Balci, M.; Taskesenligil, Y. Advances in Strained and Interesting Organic Molecules; Halton, B., Ed.; JAI Press Inc: Stamfort, CT, 2000; Vol.8, pp 43-81. 3. Bourissou, D.,et.al., Chem.Rev., 2000, 100, 39-91.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
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mark as (X)
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If any,
mark as (X)
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Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Explanation of cyclopropene-carbene rearrangements; an overview Description of stable carbenes and explanation of stable carbene synthesis Explanation of allene structure and explanation of strained-allenes as reactive intermediates Generation of cyclic-strained allenes and explanation of beta-elimination routes Explanation of Doering-Moore-Skattebol routes with examples Explanation of other strained-allene generation methods Cycloadditions of strained-allenes via mechanisms Other reactions of strained-allenes via mechanisms Explanation of singlet-oxygen and generation of singlet oxygen from photoexcitation method Generation of singlet-oxygen from chemical methods Explanation of other signlet-oxygen generation methods Cycloadditions of singlet-oxygen via mechanisms Other reactions of singlet-oxygen via mechanisms Explanation of the application of reaction intermediates on synthetic organic chemistry
Instructors Prof.Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Advanced Organic Synthesis
Techniques Code : FKM 5249
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homewworks Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding mechanis ms of advanced organic synthesis reactions
Learning Outcomes and Competences
1) To know the advanced organıc synthesıs techniques
2) To comprehend the Catalytic organic reactions,
3) It can be made the mechanism of name reactions and their comparison
Textbook and /or References
1) Organic Chemistry, T.W. Graham Solomons,1992
2) Advanced Organic Chemistry, Jerry March
3) Advanced Organic Chemistry Fifty Edition Francis A. Carey and Richard J. Sundberg SİRİNGER (2007) 4)”Organic Chemistry” Claiden, Greeves, Warren and Wothers OXFORD UNV Press (2001) 5)”Organic Chemistry “ G.Marc Louden OXFORD UNV. Press (2002) 6) George Gokel “Crown Ethers and Cryptands” The Royal Society of Chem (1994)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 30 Term Paper
Term Paper (Projects,reports,….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1
2 3 4 5 6 7 8 9
10-14
Catalytic o rganic reactions, mechanism of name reactions and their comparison, synthesis and
reactions of heterocyclic compounds, like coumarine, coumestane, flavone and isoflavone
Catalytic o rganic reactions,
Catalytic o rganic reactions,
mechanis m of name reactions and their comparison,
mechanis m of name reactions and their comparison,
mechanis m of name reactions and their comparison,
mechanis m of name reactions and their comparison,
mechanis m of name reactions and their comparison,
synthesis and reactions of heterocyclic compounds, like coumarine, coumestane, flavone and
isoflavone
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Heterocyclic Compounds Code : FKM 5250 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total T+A+L= Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding heterocyclic compounds chemistry
Learning Outcomes and Competences
1) Should understand naming of heterocyclic compounds 2) Should classify the aromatic heterocyclic compounds. 3) Should write synthesis mechanism of heterocyclic compounds
Textbook and /or References
1) “Organic Chemistry”, T.W.G.Solomons, John Wiley (1992) 2) “Advanced Organic Chemistry”, J.March, John Wiley (1992) 3) “Advanced Organic Chemistry”, Fifth Edition, F.A. Carey and R.J. Sundberg, Springer (2007) 4) “Organic Chemistry”, Claiden, Greeves, Warren and Wothers, Oxford Univ. Press (2001) 5) “Organic Chemistry”, G.Marc Loudon Oxford Univ. Press (2002) 6) “Aromatic Heterocyclic Chemistry”, D.T.Davies, Oxford Univ. Press (1992) 7) “Crown Ethers and Cryptands”, G.Gokel, The Royal Society of Chem. (1994)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ...)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Entitled Heterocyclic Compounds. Aromatic Heterocyclic Compounds. Aromatic Heterocyclic Compounds. Aromatic Heterocyclic Compounds. Nonaromatic Heterocyclic Compounds. Synthesis of heterocyclic Compounds. Synthesis of heterocyclic Compounds. Synthesis of heterocyclic Compounds. Six-Membered Heterocyclic Compounds with One Heteroatom. Five-Membered Heterocyclic Compounds with One Heteroatom. Five-Membered Heterocyclic Compounds with Two or More Heteroatoms. Six-Membered Heterocyclic Compounds with Two or More Heteroatoms. Three- and Four-Membered Ring Compounds, Seven-Membered Ring Compounds.
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Protectıng Groups In
Organıc Chemıstry Code : FKM 5251
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Hemeworks
.
Other Total T+A+L= Credit
ECTS
42 - - - 14 148 204 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of protecting groups in organic chemistry
Learning Outcomes and Competences
1)To know the protecting groep at Organic Chemistry ,and ıt can be made protekt process
2) To comprehend function of protector groups at organic chemistry
Textbook and /or References
1) Organic Chemistry, T.W. Graham Solomons,1992
2) Adanced Organic Chemistry, Jerry March 3) Advanced Organic Chemistry Fifty Edition Francis A. Carey and Richard J. Sundberg SİRİNGER (2007) 4) George Gokel “Crown Ethers and Cryptands” The Royal Society of Chem (1994)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 30 Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
An overview to the protecting group chemistry, An overview to the protecting group chemistry, The role of protecting groups in organic chemistry, protecting of hydroxyl groups, Deprotecting of hydroxyl groups, Protecting of carbonyl groups, Deprotecting of carbonyl groups, Protecting of carboxyl groups, Deprotecting of carboxyl groups, Protecting of amino groups, Deprotecting of amino groups, Protecting of thiol groups, Deprotecting of thiol groups, Reactivites and reagents
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: The optional topics of Biochemistry-II
Code : FKM5253
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand specific issues in Biochemistry.
Learning Outcomes and Competencies
To learn specific issues in Biochemistry.
Textbooks and /or References
Voet Biochemistry, Stryer Biochemistry,Efficient
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Thermodynamics of phosphate compounds Metabolism of alcohol Metabolism of alcohol Metabolic degradation of aminoacids Metabolic degradation of aminoacids Replication Replication Replication Replication Transcription Transcription Transcription Transcription Transcription
Instructor/s Prof. Dr. Oktay ARSLAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Chemical Speciation and Fractionation
Code : FKM 5254
Institute: Science Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/ FieldStudy
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 130 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To emphasize the importance of speciation and fractionation approach in chemical analysis, to teach separation and determination methods uesd in speciation and fractionation analysis.
Learning Outcomes and Competencies
1- Be able to know chemical speciation, fractionation and their importance. 2- Be able to know separaion methods used in speciation and fractionation analysis. 3- Be able to know determination methods used in speciation and fractionation analysis. 4- Be able to know some applications for environmental, food and clinical samples.
Textbooks and /or References
1. Handbook of elementalspeciation: techniquesandmethodology, Ed. RitaCornelis, ISBN : 0 -471-49214-0, England: John Wiley&Sons, 2003.
2. Handbook of elementalspeciation II: species in theenvironment,food,medicineandoccupationalhealth, Ed. RitaCornelis, ISBN : 0 -470-85598-3, England: John Wiley&Sons, 2005.
3. Trace element speciationforenvironment, foodandhealth, Ed. LesEbdon, ISBN : 0 -85404-459-0, Cambridge: SC, 2001.
4. Hyphenatedtechniques in speciationanalysis, JoannaSzpunar, ISBN : 0 -85404-545-7, Cambridge: RoyalSociety of Chemistry, 2003.
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Oral Examination
LaboratoryWork Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Chemicalspeciationandfractionation Theimportance of chemicalspeciationandfractionationanalysis Theapplicationareas of chemicalspeciationandfractionationanalysis Bioavailabilityandtoxicity Trace element determination Calibrationandstandardization Thepyhsicalseparationmethodsused in speciationandfractionationanalysis Thechemicalseparationmethodsused in speciationandfractionationanalysis Determinationmethodsandcombinetechniques Speciationandfractionationstudies in environmental samples Speciationandfractionationstudies in food samples Speciationandfractionationstudies in clinical samples Combinedtechniques in speciationanalysis (GC-MS etc.) Combinedtechniques in speciationanalysis (GC-MS etc.)
Instructor/s Assoc.Prof.Dr.Sema Bağdat
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~sbyasar/
GRADUATE COURSE DETAILS
Course Title: MISCONCEPTIONS IN CHEMISTRY
Kodu : FKM5255 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To diagnose the prospective chemistry teachers’ misconceptions, to let them know the misconceptions which their students would potentially have, to remedy their misconceptions and to have them suggest the ways to overcome their students’ misconceptions
Learning Outcomes and Competencies
Prospective chemistry teachers’ should remedy the most of their misconceptions and have an idea about how approach will be followed during teaching of the topics in which high school students have misconceptions
Textbooks and /or References
Vanessa Kind, Beyond appearances : students’ misconceptions about basic chemical ideas, www.chemsoc.org/pdf/LearnNet/rsc/miscon.pdf , General Chemistry books, The journals related to misconceptions on the subjects in content
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Midterm Exams Midterm Exams
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 Introduction to course, applying pretest 2 States of Matter 3 Particle Theory, 4 Change of State 5 Elements, Compounds And Mixtures; 6 Physical And Chemical Change 7 Chemical Events; 8 Acids, Bases And Neutralisation; 9 Stoichiometry 10 Chemical Bonding 11 Thermodynamics 12 Chemical Kinetics 13 Equilibrium 14 Electrochemistry
Instructor/s Prof.Dr. Mahir ALKAN
e-mail [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: Surface Chemistry Code : FKM5256 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The understanding of events occuring at solid-liquid interfaces; electrical double layer; surface charge and zeta potential; adsorption
Learning Outcomes and Competencies
To have information related to colloidal solutions, classification and preparation of colloids, the phenomenon at interfaces, electrical double layer and zeta potential, rheology and colloid stability
Textbooks and /or References
Shaw, Introduction to Colloid and Surface Chemistry, Butterworth and Co., 1980.
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mark as (X) Percent
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 What is colloid? Classification of colloidal systems 2 Preparation and purification of colloidal systems 3 Kinetic properties: the motion of particles in liquid systems 4 Optical properties 5 Liquid-gas interfaces 6 Liquid-liquid interfaces 7 Solid-gas interfaces 8 Solid-liquid interfaces 9 Charged interfaces: electrical double layer 10 Charged interfaces: electrokinetic theory and electrokinetic phenomena 11 Colloid stability 12 Rheology 13 Emulsions and foams 14 Problems and their solutions
Instructor/s Prof.Dr. Mahir ALKAN, Prof.Dr. Mehmet DOĞAN, Doç.Dr. Yasemin TURHAN
e-mail [email protected], [email protected] , [email protected]
Website -----
GRADUATE COURSE DETAILS
Course Title: Surface Properties of Clay Minerals
Code : FKM5257 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
It is very important that the knowing of the properties of clay systems and phenomenon of
interfaces in Chemistry and Industrial Applications. On the other hand, while the crucial importance of surface and interface chemistry of clays is stressed, it will be thought preferable to discussion of the interfaces, surface potential and charge, solid surfaces and
etc. Learning Outcomes and Competencies
Clay systems and knows the general properties
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
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Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Clay minerals and classifications Clay minerals in Turkey Industrial importances of clay minerals Structure of clay minerals Physical properties of clay minerals Surface hydroxile groups and their reactions Surface potentials and measuring of clay minerals Zeta potential and model of electrical double layer Modifications of clay surface Immobilization and applications Chromotographic applications of clayminerals Adsorptive applications of clayminerals Rheological applications of clayminerals Summary of course
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: COMPUTATIONAL
ORGANIC CHEMIS TRY II
Code : FKM5258
Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
DFT, ab-initio and solvation methods, modelling organic compounds.
Course Objectives
To learn the applicat ion of computational chemistry in organic chemistry field with DFT and Ab-
initio methods.
Learning Outcomes and Competences
Usage of computational chemistry in organic chemistry field; especially finding suitable geometries
and molecu lar properties of organic molecu les and exp loring organic reaction mechanis ms
Textbook and /or References
Jensen, F., “Introduction to Computational Chemistry”, John Wiley Sons Ltd., West Sussex,
England, 1999, ISBN 0-471-98425-6
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Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
DFT methods Application of DFT methods in organic chemistry Ab-initio methods Application of Ab-initio methods in organic chemistry Molecular Dynamics methods Comparision of basis sets Solvation models Package Programs in computational chemistry Optimization of transition structure Modelling of conformation of organic compounds Explanation of IR frequency calculation of organic molecules Explanation of
1H and
13C-NMR calculation of organic molecules
Explanation of HOMO-LUMO energy level calculation of organic molecules and its visualization Explanation of charge distribution of organic molecules
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: SupramolecularChemistry II Code : FKM5259 Institute: Science Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/ FieldStudy
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
X Social Elective
Course Objectives
Learning supramoleculerchemistryandapplication
Learning Outcomes and Competencies
Through synthesizingbigmolecules in supramoleculerchemistry, they can use in photodynamictherapywhich is a newcancertherapymethodbyusing in synthesizing of drug. Progress can be providedbythissynthesisanditsanalogous in nanotechnology.
Textbooks and /or References
SupramolecularChemistry (yazar:J.W. Steed, J.L. Atwood)
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Oral Examination
LaboratoryWork Final Exam
Final Exam X 40 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Definition andEvolution of SupramoleculerChemistry Classification of supramoleculer ‘host-guest’ compounds Nature of SupramolecularChemistry SupramolecularChemistry of Life CationBindingHosts AnionBinding NeutralMolecularBinding MolecularDevices I MolecularDevices II BiologicalMimics BiologicalMimics SupramolecularCompounds I SupramolecularCompounds II SupramolecularCompounds III
Instructor/s Yrd.Doç.Dr. Funda Yükrük
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Artificial Enzymes and Enzyme Models
Code : FKM 5260 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
X Social Elective
Course Objectives
Learning how to synthesize artificial enzymes and enzyme models
Learning Outcomes and Competencies
After planning different enzyme models, by learning synthesis of new drugs, those drugs can be synthesized and worked in this kind of industry
Textbooks and /or References
Artificial Enzymes and Enzyme Models (Author:Ranold Breslow)
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X 30 Oral Examination
Laboratory Work Final Exam
Final Exam X 40 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Artificial enzymes Using to be enzyme mimics of thiamine pyrophosphate which is coenzyme Using to be enzyme mimics of pyridoxal phosphate which is coenzyme Artificial hydrolytic enzymes Vitamin B6 enzyme models Development of synthetic polymers with catalytic activities Mimicking of enzymes with antibodies Development of binding affinity and catalytic efficiency General acid-general base catalysis Covalent catalysis Artificial enymes based on proteins Artificial hydrolytic metalloenzymes Phosphotase model, phosphodiesterase models Artificial limited enzymes for next moleculer biology and biotechnology
Instructor/s Asist. Prof. FUNDA YUKRUK
e-mail [email protected]
Website
UNDERGRADUATE CURRICULUM DETAILS
Course Title: Physical Organic chemistry II Code : FKM 5261
Institute: Graduate School of Natural and Applied Sciences
Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homework. Other Total T+A+L=Credit ECTS
42 - - - 14 148 204 3 8
Semester SPRING Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding of Physical Organic chemistry
Learning Outcomes and Competences
1)To understand principal concepts in Physical organic chemistry
2) It can apply the thermodynamics laws to the Organic chemistry reactions
3) To knows physical organic chemistry's laws
Textbook and /or References
1) Physical Organic chemistry Second Edition Neil S. Isaacs 1996
2) Organic Chemistry, T.W. Graham Solomons,1992
23 Adanced Organic Chemistry, Jerry March
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Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Substituation reactions at carbon Substituation reactions at carbon Elimination reactions Elimination reactions Polar addition reactions Polar addition reactions Intramolecular reactions Intramolecular reactions Pericyclic reaction Pericyclic reaction Reaction via free radical Reaction via free radical Organic fhotochemistry Organic fhotochemistry
Instructors Assoc. Prof. Dr. Baki ÇİÇEK
e-mail [email protected]
Website http://kimya.balikesir.edu.tr/dersler.htm
GRADUATE COURSE DETAILS
Course Title: Protein Turnover and Amino acid Catabolism
Code : FKM 5262 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 28 - 28 14 88 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Protein molecules are continuously synthesised and degraded in all living organisms. The concentration of individual cellular proteins is determined by a balence between the rates of synthesis and degradation, which in turn are controlled by a series of regulated biochemical mechanisms.
Learning Outcomes and Competencies
To learn Protein Turnover and Amino acid Catabolism.
Textbooks and /or References
Biochemistry/Stryer, Biochemistry/Voet
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Homework x 10 Term Paper
Term Paper, Project Reports, etc.
x 20 Oral Examination
Laboratory Work Final Exam
Final Exam x 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Proteins are degraded to Amino acids Proteins are degraded to Amino acids The digestion and absorption of dietary aminoacids The digestion and absorption of dietary aminoacids The digestion and absorption of dietary aminoacids Protein Turnover Protein Turnover The first step in aminoacid degradation is the removal of nitrogen The first step in aminoacid degradation is the removal of nitrogen Ammonium ion is converted into urea in most terrestrial vertebrates Urea cycle and nitrogen importance in the metabolism Urea cycle and nitrogen importance in the metabolism Carbon atoms of degraded Aminoacids emerge as major metabolic intermediates Carbon atoms of degraded Aminoacids emerge as major metabolic intermediates
Instructor/s Assoc. Prof. Dr. Serap UZUNOĞLU
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Chemometry Applications Code : FKM5263 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The assessment of chemometric methods and its applications
Learning Outcomes and Competencies
1-Learning of chemometric methods and the use of these methods in the evaluation of experimental analysis results 2-The application of each of these methods to solve certain analytical problems statistically.
Textbooks and /or References
SPSS uygulamalı çok değişkenli istatistik teknikleri, Yrd.Doç.Dr. Şeref Kalaycı Chemomtrics Richard R. Brereton
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Oral Examination
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Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Errors, t-test.F-test Correlations analyses Variance Analyses ANOVA MANOVA Covariance analyses Linear Regression Multiple Linear Regression Factorial analyses Applacation of Factorial analyses Discriminant analyses Cluster Analyses Experimental design Application of Experimental design
Instructor/s Prof.Dr. Derya KARA FISHER
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Interfaces of macromolecules
Code : FKM5264 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Macromolecules such as biomolecules and surface active substances polymers containing in solution of various interface (solid-liquid, liquid-liquid, etc.) that occur physicochemical events to teach.
Learning Outcomes and Competencies
Knows various physicochemical phenomena
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
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Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Colloids Description of macromolecules Interface behavior of biomolecules Interface behavior of polymer Interface behavior of surface active substances The interactions between macromolecules and particles Electrostatic interactions Source of surface charge DVLO theory Electrical double layer Coagulation Floculation Stability of dispersions Characterization of colloidal particles
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Quantum Mechanics Code : FKM5265 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Basic principles of quantum mechanics with applications to various systems to teach
Learning Outcomes and Competencies
Know the basic principles of quantum mechanics
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
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Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The foundations of quantum mechanics Quantum mechanics is causing the rising of the events and discoveries Bohr theory of hydrogen atom Classical wave equation Schrödinger equation Single and three-dimensional particles in the box Postulates of quantum mechanics Vibration and harmonic oscillator motion Rotational movement, the problem of hydrogen and helium atoms Angular momentum Approximate methods of calculations Theory for the helium atom and variations perturbation Born-Oppenheimer Approach Scattering
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: SYNTHETIC ORGANIC CHEMISTRY Code : FKM5266 Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Protecting groups, conformational analysis, rearrangements and stereocontrol
Course Objectives
Learn the strategies and methods used in the syntheses of complex organic molecules
Learning Outcomes and Competences
New and important methods used in synthetic organic chemistry are learned. At the end of course, the syntheses of organic molecules are designed.
Textbook and /or References
1. Metin Balc ı, “Reaksiyon Mekanizmaları”, TÜBA, Ders Kitapları Serisi, 2008, ISBN 978-9944-252-18-8 2. Bernard Miller,”Advanced Organic Chemistry, Prentice-Hall, 2004, ISBN 0-13-121928-6-90000
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X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to Synthesis Protecting Groups/Latent Functionality Conformational Analysis/Complex Ring Systems Enolate Formation and Chemistry Strategic Bond Analysis Strategic Bond Analysis Reduction, Electron Transfer, Hydrogenation Alkylation, Formation of 3, 4, 5, 6, 7-, and Macrocyclic Rings Heteroatom-Stabilized Anions in Synthesis Rearrangements Rearrangements Organotransition Metals in Synthesis Organophosphorus and organosulfur compounds Acyclic Stereocontrol
Instructors Prof.Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: Selected Topics in Physical Chemistry II
Code : FKM5267 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Physical chemistry and in various sub-branches, combined with recent developments in the world will be presented
Learning Outcomes and Competencies
Know the recent work of the various sub-topics and Physical Chemistry
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
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Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Physicochemical concepts Reversible and irreversible systems Thermodynamics of Solutions Phase transitions Reaction kinetics Modern catalysis and catalytic processes Surface chemistry Colloids Adsorption Surface modifications Electrochemical events Electrokinetics method and applications Electroactivity Quantum Mechanics of Molecular Properties and Calculation Method
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Organic Named Reactions II Code : FKM 5268
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework
Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Contents
Some named reactions and their mechanisms in organic chemistry.
Course Objectives
To introduce named reactions in organic chemistry and to inform about their reaction mechanisms.
Learning Outcomes and Competences
1- To recognise the reactions as known special names 2- To get information about mechanism of reactions.
Textbook and /or References
Name Reactions (Jie Jack Li) Named Organic Reactions 2 nd Edition (Thomas Laue and Andreas Plagens) Name Reactions for Functional Group Transformations ( Jie Jack Li and E. J. Corey) http://www.organic-chemistry.org/namedreactions/
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Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
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Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Hydroboration Knoevenagel Condensation Malonic Ester Synthesis Mannich Reaction Markovnikov's Rule Michael Addition, Meerwein-Ponndorf-Verley Reduction Nucleophilic Substitution (SN1 / SN2) Reformatsky Reaction Schmidt Reaction Strecker Synthesis, Schmidt Reaction Suzuki Coupling, Williamson Synthesis [2,3]-Wittig Rearrangement, Wittig Reaction Wolff Rearrangement, Wolff-Kishner Reduction Woodward Reaction
Instructors Assoc. Prof. Dr. Onur TURHAN, Prof. Dr. Hilmi NAMLI
e-mail [email protected], [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Characterization of Inorganic Compounds
Code : FKM5269 Institute: FBE Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
3 3 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To Clarification structure of the inorganic compounds unknown crystal system and chemical formula.
Learning Outcomes and Competencies
You can determine the crystal structures of these compounds and found the unit cell parameters by using X-ray data of a novel crystalline compounds . For the novel compound is determined functional groups in the structure.
Textbooks and /or References
Lecture notes
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x 50 Oral Examination
Laboratory Work - - Final Exam
Final Exam x 50 Other
Other - -
Week Subjects
1 2 3
4 5 6
7 8 9
10
11 12 13
14
Introduction of crystal structures
Crystal systems
Miller indices and planes
X-rays, properties and obtaining
X-rays diffract ion
Determination of crystal structures with X-Ray
Cubic system
Tetragonal system
Hegzagonal system
Orthorombic system
FTIR technique
Structure clarification using FTIR technique
DTA/TGA
Structure clarification using DTA/TGA technique
Instructor/s Yrd. Doç. Dr. Berna Bülbül
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Antioxidant activity determination assays
Code : FKM5270
Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand antioxidant activity assays
Learning Outcomes and Competencies
To learning antioxidant activity assays
Textbooks and /or References
The course instructor's prepared notes
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Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Free radicals Reactive oxygen species Reactive nitrogen species Antioxidant defense systems Mechanisms of antioxidant effects Antioxidant nutrients Synthetic antioxidants Enzymatic antioxidants Antioxidant activity determination methods Extraction of antioxidants from plants Determination of Total Antioxidant Activity Determination of total phenol content Determination of peroxide removal capacity Determination of free radical reduction activity
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: Biochromatography Code :FKM5271 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand biochromatography
Learning Outcomes and Competencies
To learn biochromatography
Textbooks and /or References
The course instructor's prepared notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Basic principles of chromatographic The basic steps at biochromatography Gel filtration Ion exchange chromatography Hydrophobic interaction chromatography of proteins Hidrofıbik gel synthesis Affinity chromatography Synthesis of affinity gel Selection of materials in the synthesis gel Choice of ligand in the synthesis gel Calculation of the degree of gel purification Benefits affinity gel Electrophoresis for purity control Biochromatography applications
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: Advanced Physical Chemistry II
Code : FKM5272 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 8
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
System, cases, process is based on the theme. Systems based on macroscopic and microscopic features.
Learning Outcomes and Competencies
Know the basics of Physical Chemistry
Textbooks and /or References
Physical Chemistry, P. ATKINS, OXFORD Publishing, Physical Chemistry, Yüksel Sarikaya, Gazi Univ. Publications
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Physico-Chemical Concepts Thermodynamics Real Gas Equation Two and Three-Component Systems Phase Equilibria Chemical Equilibrium Electrochemistry Introduction to Colloid Chemistry Foundations of Quantum Mechanics Surface Chemistry Adsorption Kinetics and Applications Based on the surface potential Polymer Materials Structures of Composites and Nanocomposites
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Advanced Rearrangement Reactions
Code : FKM5273
Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents Substitution, elimination reactions’ mechanism, isotopic labeling, application of chiral auxiliary.
Course Objectives
Describe new rearrangement reactions in literature. Gain the ability about thinking three-dimensional structures.
Learning Outcomes and Competences
Advanced rearrangement reactions having some application in organic chemistry are learned. Students can learn and describe the properties of rearrangement reactions in organic chemistry.
Textbook and /or References
1. Advanced Organic Chemistry: Reactions, Mechanisms, and Structure by Michael B. Smith and Jerry March, 6th ed. 2007, Wiley. 2. The Vocabulary and Concepts of Organic Chemistry by Milton Orchin, Roger S. Macomber, Allan R. Pinhas, and R. Marshall Wilson ,Wiley-Interscience; 2 edition 2005.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The clarification of mechanisms of substitution reactions starting with proper chiral reactants The clarification of mechanisms of elimination reactions starting with proper chiral reactants The clarification of mechanisms of addition reactions starting with proper chiral reactants The clarification of mechanisms of radical reactions starting with proper chiral reactants The clarification of mechanisms of radical reactions starting with proper chiral reactants The clarification of mechanisms of cycloaddition starting with proper isomers The clarification of mechanisms of electrocyclic starting with proper isomers The clarification of mechanisms of sigmatropic rearrangements starting with proper isomers The clarification of mechanisms of rearrangement reactions starting with proper isomers Rearrangement to an electron-deficient atom Migration to penta -coordinate carbocations Free-radical rearrangements, anionic rearrangements Electrocyclic rearrangements Isotopic labelling, starting/obtaining /adding chiral derivatives, benefitting from steric parameters
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: Advanced Organic Materials Code : FKM5274 Institute: Natural and Applied Sciences Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 - - 28 28 102 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Organic Materials used in Nanomaterials, Organic Semiconductor, conductor, superconductor, chemical sensor, liquid crystals, other organic materials used in new technologic materials .
Course Objectives
Describe the organic materials used in advanced materials, learn some knowledge about new technologic progress about advanced materials,
Learning Outcomes and Competences
Advanced organic materials having some application in technology are learned. Students can learn and describe the properties and synthesis of advanced materials in organic chemistry.
Textbook and /or References
L.V. Interrante, Chemistry of Advanced Materials: An Overview, Wiley, New York, 1998.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks X 14 Term Paper
Term Paper (Projects,reports, ….)
X 14 Oral Examination
Laboratory Work Final Exam
Final Exam X 72 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Description of supramolecular chemistry Basic knowledge about liquid crystals Synthesis of organic liquid crystals Liquid crystal polymers Liquid crystal technology Organic materials used in nanomaterials Organic materials used in nanomaterials Nanotubes and nanotechnology Nanotubes and nanotechnology Organic semiconductor, conductor and super conductor Chemical sensors Other organic materials used in technology Other organic materials used in technology Other organic materials used in technology
Instructors Prof. Dr. Akın AZİZOĞLU
e-mail azizog [email protected]
Website http://w3.balikesir.edu.tr/~azizoglu/
GRADUATE COURSE DETAILS
Course Title: Catalysis of Organic Reactions
Code :FKM 5275 Institute: Science Field:: Chemistry
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/ Field Study
Hw. Other Total T+A+L= Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding catalysis of organic reactions
Learning Outcomes and Competences
Should classify catalysis of organic reactions
Textbook and /or References
1) “Catalysis of Organic Reactions ”, John R. Sowa, Taylor and Francis Group (2005) 2) “Advanced Organic Chemistry”, J.March, John Wiley (1992) 3) “Advanced Organic Chemistry”, Fifth Edition, F.A. Carey and R.J. Sundberg, Springer (2007)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ...)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Definition and importants of catalyst, Catalysis in Organic Synthesis Homogeneous and heterogeneous catalyst Acid and base catalysts Phase-transfer catalysts (PTC) Phase-transfer catalysts (PTC) Oxidation catalysts Reduction catalysts Hydrogenation catalysts Amination catalysts Carbonylation catalysts Isomerization catalysts Organocatalysis Asymmetric catalysis
Instructors Assist. Prof. Dr. İsmet BAŞARAN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Oxidation and Reduction Reactions in Organic Chemistry
Code : FKM 5276 Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Learn the mechanisms of oxidation and reduction reactions in organic chemistry
Learning Outcomes and Competencies
Learns oxidation and reduction reactions of organic compounds, understands transformation of functional groups in oxidation and reduction reactions and can use these reactions in organic synthesis
Textbooks and /or References
1) Modern Oxidation Methods, Jan-Erling Backvall, 2010, Wiley. 2) Reductions in Organic Chemistry, Milos Hudlicky, 1996, Cambridge 3) Reaction Mechanisms in Organic Synthesis, Rakesh Kumar Parashar, John Wiley & Sons, 2009.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10 11 12 13 14
Introduction to oxidation and reduction reactions Oxidation Reactions, Oxidations with halogens Oxidation of the activated alpha-hydrogen atoms (Hell-Volhard-Zelinskii reaction, Haloform reaction) Dehydrogenation and Oxidation Reactions with Aromatization Oxidation Mechanism with ester intermediates (Oxidation with chromic acid and KMnO4, OsO4, periodic acid and lead tetraacetate) Oxidations with addition-elimination mechanism (epoxidation, hydoxylation) Baeyer-Villiger Oksidasyonu Oxidation of aromatic ring and aromatic side chain Reduction Reactions, Hydride Transfer Mechanism, Meerwein-Ponndorf-Verley Reduction and Oppenauer Oxidation Cannizaro Reaction, Tishchenko Reaction Direct Electron Transfer Mechanism (Soluble Metal Reduction) Birch Reduction, Clemmensen Reduction, Wolff-Kishner Reduction Catalytic Hydrogenation Electrolytic Reduction Reactions
Instructor/s Yrd. Doç. Dr. Arzu GÜMÜŞ PALABIYIK
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Theoretical Approaches in Organic Chemistry II
Code : FKM 5277 Instutition: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 200 3+0+0 8
Semester 6 Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To be able to offer easier theoretical solutions to organic chemistry problems.
Learning Outcomes and Competencies
1-Able to offer theoretical solutions to mechanistic and spectroscobic problems 2-Theoretical and experimental methods would be used harmoniously
Textudbooks and /or References
Cyril Parkanyi, “Theoretical Organic Chemistry” Elsevier-1998 Errol Lewars “Computational Chemistry” Kluwer Acedemic Publishers -2004
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams
Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Energy calculations Definition of basis sets The selection parameters for the method and basis set Calculation of vibrational frequencies The effect of single bond rotation to the potential energy and calculation of this effect Commands in Gaussian Commands in Gaussian Presentation of Gaussview Drawing molecules with Gaussview The solvent simulation thecniques Using theoretical methods to identify the reaction mechanisms Transition state energy calculations Other Gaussian applications Interpretation of output files
Instructor/s Assoc. Prof.Dr.Sedat KARABULUT
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Bioorganic Chemistry Code : FKM 5279 Instutition: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
52 148 200 3+0+0 8
Semester 6 Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding the reactivity of biomolecules and inside of biochemical reactions.
Learning Outcomes and Competencies
1-Reactivity of biomolecules would be understood 2-Mechanism of biochemical reactions would be undersood
Textudbooks and /or References
Carsten Schmuck ve Helma Wennemers , “Highlights in Bioorganic Chemistry” Wiley-2004
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams
Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The importance of organic chemistry to understand biochemical processes The reactivity of biomolecules: HOMO LUMO interactions The 3D structures of biomolecules and effects on reactivity The effect of solvent to biologically important reactions, water The effect of pH to biologically important reactions, buffer solutions The advantages of theoretical methods to estimation of 3D structures and reactivity of biomolecules Key and lock model Aminoacides Synthesis of polypeptides Nucleotides and nucleic acides The structures of DNA and RNA Sugars and polysaccarides Lipides Discussions and applications on reacivity and 3D shape of some biomolecules
Instructor/s Assoc. Prof.Dr.Sedat KARABULUT
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Thermal Analysis of Inorganic Compounds
Code : FKM 5282 Institute:Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 -- -- -- -- 158 200 3 8
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Provide information on thermal analysis techniques used in the characterization of inorganic compounds
Learning Outcomes and Competencies
1) Understanding of thermochemical concepts 2) Learning the methods of thermal analysis 3) Interpretate the thermal analysis datas of inorganic compounds
Textbooks and /or References
1)Termal Yöntemler, James W. Dodd, Kenneth H. Tonge , Çeviren: Doç. Dr. Baki Erdoğan, 2003, Ankara 2)Differantial Thermal Analysis, Application and Results in Minerology, W. Smykatz-Kloss, Springer,1974.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Thermal Analysis Methods Thermogravimetry (TG) TG curves Factors affecting the TG curves Interpretation of TG curves Differential Thermal Analysis (DTA) Differential Scanning Calorimetry (DSC) DTA curves DSC curves Interpretation of DTA/DSC DTA/DSC analyzer Determination of melting points of inorganic compounds with DTA / TG DTA / TG / DSC applications on the characterization of inorganic compounds DTA / TG / DSC applications on the characterization of inorganic compounds
Instructor/s Yrd. Doç. Dr. Çiğdem HOPA
e-mail [email protected]
Website
GRADUATE CURRICULUM DETAILS
Course Title ADVANCED NANOTECHNOLOGY CHEMISTRY
Code :FKM5283 Institute: SCIENCE Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 -- -- -- -- 158 200 3 8
Semester Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teaching of the nanotechnology principles and applications
Learning Outcomes and Competences
Student should learn the general principles of the nanotechnology science and their principles
Textbook and /or References
1)Nanoscience and nanotechnology, Şakir Erkoç, ODTÜ Publ. 2) NanotechnologyMick Wilson, Chapman&Hall/CRC 3) Fizikçi Gözüyle nanoteknoloji, Mehmet Erbudak, Tuba Yayınları.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Background to nanotechnology and historical developments Molecular Nanotechnology Synthesis techniques in nanotechnology science Production techniques of the nanomaterials from natural materials Instrumental techniques in nanoscience and material characterizations Spectroscopic methods, FTIR and Raman Spectroscopy X-ray powder and single crystal diffraction techniques Industrial and technological applications in nanoscince Nanotechnology in chemistry science and industrial chemistry Nanoscience in Information techniques Nanomaterials in textile and medicine Nanotechnology in Aerospace and space industry The future of the nanotechnology General conclusions
Instructors Prof.Dr. Halil GÜLER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hguler
GRADUATE COURS E DETAILS
Course Title: Imaging Techniques Used in the
Physical Chemistry Code : FKM 5284
Institute: Science institute
Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homework Othe
r
Total Credit
T+A+L=Credit
ECTS
42 0 0 0 0 158 200 3+0+0=3 8
Semester Spring Language Turkish
Course Type
Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives Describing the imaging techniques used in the physical chemistry
Learning
Outcomes
and
Competencies
Learn ing the imaging techniques of macro, micro and nano level molecu les
Textbooks
and /or
References
M.M. Schwartz 'Composite Materials Handbook', Mc. Grav- Hill Company, 1984
Transmission Electron Microscopy (TEM) Transmission Electron Microscopy (TEM),
Ed :Peter Goodhew,
University of Liverpool D.B.W illiams and C.B.Carter
Scientific articles
ASSESS MENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
Mark as (X)
Percent
(% )
If any,
mark as (X)
Percent
(% )
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 25 Term Paper
Term Paper, Pro ject
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 75 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
The basis of imaging techniques
Atomic force microscopy (AFM)
Applications of Atomic force microscopy
Literature studies of Atomic force microscopy
Scanning electron microscope (SEM)
Applications of Scanning electron microscope
Literature studies of Scanning electron microscope
Transmission electron microscopy (TEM)
Applications of Transmission electron microscopy
Literature studies of Transmission electron microscopy
High-resolution transmission electron microscopy (HRTEM)
Applications of High-resolution transmission electron microscopy
Literature studies of High-resolution transmission electron microscopy
Applications of imaging tecniques in composite materials
Instructor/s Assoc. Prof.Dr. Yasemin TURHAN, Prof. Dr. Mahir ALKAN, Prof. Dr. Mehmet DOĞAN
e-mail [email protected], [email protected], [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Polymer Technologies Code :FKM5286 Faculty or VS: SCIENCE-LITERATURE Programme: CHEMISTRY
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 42 42 74 200 3+0+0 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To learn production technologies of polymers commonly used in our daily lives
Learning Outcomes and Competencies
1. He/she should learn the mechanical properties of the basic polymer. 2. He/she should learn techniques used in commercial production of polymers. 3. He/she should learn properties of thermoplastics, thermoset and elastomer polymers and their processing methods. 4. He/she should learn polymer foam, fiber and film processing methods . 5. He/she should learn additives used in polymers
Textudbooks and /or References
Polimer Teknolojisi, Prof.Dr. Mehmet Saçak, Gazi Kitabevi. Ankara.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work
Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Basic concepts related to polymers. The raw materials used in production of polymers (Oil, natural gas, coal and plants) Thermal, electrical and optical properties of polymers The effect of environmental on polymers Mechanical properties of polymers Technology of thermoplastic polymer Technology of thermoset polymer Technology of elastomer polymer Fiber technology Polymer films Polymer foams Polymer Coatings Decomposition of polymer Additives in polymers
Instructor/s Assoc.Prof. Dr. Seda BEYAZ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Biomaterials Code : FKM 5287 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - - - 42 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
This course explains in simple terms the basic ideas of the biomaterials and outlines the
importance of biopolymers essential knowledge for all biochemists. The applications, improving the range and safety of materials available for several pur poses, their specific
targets will be also discussed during the course.
Learning Outcomes and Competencies
To learn the main concepts of biomaterials and related concepts, To understand the physical, chemical and biological properties of biomaterials, To be able to understand the relationship between structures of various biomaterials (implants, prosthetics etc.) and their applications
Textbooks and /or References
Sujata V. Bhat, Biomaterials, Springer, (2002),B. D. Ratner, A. S. Hoffman, F. J. Schoen,
J. E. Lemons, Eds. Biomaterials Science 2.Ed, Elsevier Academic Press, (2004) R. Narayan, Ed., Biomedical Materials, Springer, (2009)
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams 1 40 Midterm Exams
Quizzes - Midterm Controls
Homework - Term Paper
Term Paper, Project Reports, etc.
- Oral Examination
Laboratory Work - Final Exam
Final Exam 1 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Definition and classification of biomaterials, Structures, physical, chemical and biological properties of biomaterials, Ionic polymerization, Radicalic polymerization, Biological and industrial production and synthesis of biopolymers, Definition and classification of bio and biocompatible materials, Definition and classification of bio and biocompatible materials, Biocompatibility, bioactivity, bioinertness, polymeric biomaterials , Biodegradable polymers, Hydrogels, Applications of biomaterials in dental applications, Applications of biomaterials in cardiovascular systems, Applications of biomaterials in prosthetics, Applications of biomaterials in other industrialization.
Instructor/s Assoc. Prof. Dr. Serap UZUNOĞLU
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Biotransformation Code : FKM 5288 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - - - 42 3 8
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The aim of the course is to be aware of the range of the transformations that are catalysed by enzymes. The objectives are to understand the advantages and disadvantages of using biocatalysts, to be familiar with the different types of biocatalysis.
Learning Outcomes and Competencies
To understand biotransformation, to develop biotransformation processes, To determine the parameters that affect the performance of biotransformation.
Textbooks and /or References
K. Faber, “Biotransformations”, Springer-Verlag Berlin and Heidelberg, 2000 J. R. Hanson, “An Introduction to Biotransformations in Organic Chemistry”, W. H. Freeman and Stockton, 1995 A. Telefoncu, “Biyoteknoloji”, E.Ü. Fen Fakültesi Yayınları, No:152, 1995
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams 1 40 Midterm Exams
Quizzes - Midterm Controls
Homework - Term Paper
Term Paper, Project Reports, etc.
- Oral Examination
Laboratory Work Final Exam
Final Exam 1 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Biotransformation, Bioreaction and processes, Biotransformation in organic synthesis, Biocatalytic applications, The advantages of enzyme Used enzyme systems at biotransformation The mechanism of the microbial hydroxylation, Biotransformation techniques, Biotransformation with growing cells , Biotransformation with dormant cells , Sports culture and biotransformation, Biotransformation with immobilized cells, Biotransformation reaction types, Factors for affect of biotransformation reactions
Instructor/s Assoc. Prof. Dr. Serap UZUNOĞLU
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: THE POLYMERIC THIN FILMS Code : FKM5290 Institute: Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
3 3 4.5
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To gain knowledge and skills on general characteristics of polymeric thin films
Learning Outcomes and Competencies
1. Know the general properties of polymers 2. Recognizes the composite material 3. Characterize the polymeric thin films
Textbooks and /or References
1. Fizikokimya, ATKİNS, Bilim Yayıncılık 2. Polimer Kimyası, Fonksiyonel Yaklaşım ve Uygulamaları, Prof. Dr. Turgay Seçkin, Seçkin
Yayınları
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework x 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to Polymer Chemistry The main polymeric structures Industrial Polymers Introduction to polymeric composites Properties of the polymeric material Classification of the polymeric materials Synthesis and preparation methods of polymeric materials Characterization of polymeric materials Polymeric thin film structures The polymeric thin films Synthesis of the polymeric thin films The polymeric thin film characterization methods SEM analysis Analysis of TEM images
Instructor/s Prof. Dr. Özkan DEMİRBAŞ
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ozkan
GRADUATE COURSE DETAILS
Course Title: Advanced Biochemistry II Code : FKM5291 Institute: Science Field: Chemistry
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 28 130 200 3 8
Semester Fall and Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To understand biomolecules
Learning Outcomes and Competencies
To learn biomolecules
Textbooks and /or References
The course instructor's prepared notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 20 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 80 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Energy Resources of cells Carbon and nitrogen cycle DG and ATP Glycolysis TCA Cycle Glyoxylate Cycle Oxidative Phosphorylation Pentose phosphate pathway Gluconeogenesis Glycogen Metabolism Destruction of fatty acid Synthesis of fatty acids Destruction of amino acids Urea cycle
Instructor/s Doç.Dr. Nahit GENÇER
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~ngencer/
GRADUATE COURSE DETAILS
Course Title: CHROMATOGRAPHIC SEPARATION METHODS
Code : FKM5292
Institute:Science and Technology Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn and
Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The aim is to provide an understanding of the general concepts of chromatography and general concepts and instrumentation of different chromatographic methods as well as their applications
Learning Outcomes and Competencies
1. Understanding general concepts of chromatography, 2.Understanding of general concepts of the instrumentation of different chromatographic methods and their applications
Textbooks and /or References
1. Enstrümental Analiz İlkeleri, Skoog, Holler, Nieman, Çeviri editörleri; Esma Kılıç, Fitnat Köseoğlu, Hamza Yılmaz, Bilim Yayıncılık. 2. Enstrümental Analiz Yöntemleri, Atilla Yıldız, Ömer Genç ve Sema Bektaş, Hacettepe Üniv. Yayınları, 1997. 3. İnstrümental Analiz, Turgut Gündüz, 6. Baskı,Gazi Kitabevi, 2002.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
The theory of chromatography Summary of important relationships for chromatography Adsorption and partition chromatography Column chromatography Thin layer chromatography, Paper chromatography Size exclusion chromatography Ion exchange chromatography Principles of gas chromatography Gas-liquid and gas–solid chromatography Applications of gas chromatography High performance liquid chromatography Applications of high performance liquid chromatography Electrophoresis, electrofocusing, isotochophoresis Electrophoresis, electrofocusing, isotochophoresis (continued)
Instructor/s Assoc.Prof. Dr. Cennet KARADAŞ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: TOXIC METALS Code : FKM5293 Institute:Science and Technology Field: CHEMISTRY
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 158 200 3 8
Semester Autumn and
Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The teaching of the information about the toxic metals
Learning Outcomes and Competencies
1. To learn the definition of toxic metals 2. To learn the important of toxic metals 3. To learn separation and preconcentration methods of toxic metals from the sample matrix 4. To learn determination methods of toxic metals
Textbooks and /or References
1. Lecture notes prepared by the lecturer 2. Enstrümental Analiz İlkeleri, Skoog, Holler, Nieman, Çeviri editörleri; Esma Kılıç, Fitnat Köseoğlu, Hamza Yılmaz, Bilim Yayıncılık.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 100 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to toxic metals Heavy metals in environment Natural concentrations of heavy metals Heavy metals in atmosphere Heavy metals in water Heavy metals in sediments Heavy metals in soil Heavy metals in plants The toxic effects of heavy metals on living organisms Sample toxic metals Sample toxic metals (continued) Determination methods of heavy metals Determination methods of heavy metals (continued) Determination methods of heavy metals (continued)
Instructor/s Assoc.Prof. Dr. Cennet KARADAŞ
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Optic Emission Spectrometry Code : FKM 5295 Institute: Science Field: Chemistry
EducationandTeachingMethods Credits
Lecture Application Lab. Project/ FieldStudy
Homework Other Total Credit T+A+L=Credit
ECTS
42 14 28 116 200 3 8
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To teach the working principles of atomic emission spectrometers, to introduce the basic components of OES, to introduce the using of atomic emission spectrometer, to compare various emission spectrometer and to introduce application areas.
Learning Outcomes and Competencies
1- Be able to know the basic principal of atomic emission spectroscopy. 2- Be able to use ICP-OES instrument. 3- Be able to compare various emission spectrometers. 4- Be able to know some application areas of OES.
Textbooks and /or References
Principles of Instrumental Analysis, D.A.Skoog, J.J. Leary, 1992, 0-03-023343-7, SaundersCollege Publishing.Fundamentals of AnalyticalChemistry, D.A. Skoog, D.M. West, F.J. Holler, 1992,0 -03-074922-0, SaundersCollegePublishing.Spectrochemicalanalysisbyatomicabsorptionandemission, L.H.J. Lajunen, ISBN: 0-85186-873-8, Cambridge: RoyalSociety of Chemistry, 1992.Applications of atomicspectrometrytoregulatorycompliancemonitoring, S.W. Jenniss, ISBN : 0-471-19039-X, New York: Wiley-VCH, 1997.
ASSESSMENT CRITERIA
Theoretical Courses Project Course andGraduationStudy
Ifany,
mark as (X) Percent
(%)
Ifany, mark as (X)
Percent (%)
MidtermExams MidtermExams
Quizzes MidtermControls
Homework X 20 TermPaper
TermPaper, Project Reports, etc.
Oral Examination
LaboratoryWork X 20 Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Radiation, Emisison of ElectromagneticRadiation, Atomicemissionspectrum Spectralbandwidths, qualitativeandquantitativeapproach Atomicemissionspactrometersandopticcomponents Flameatomicemissionsource, atomizationandexcitationcharacteristics Plasma (inductivelycoupledplasma, microwaveplasma, DC plasma) Flameopticemissionspectrometer, Arcandsparcemissionspectrometer Inductivelycoupledplasmaopticemissionspectrometer (ICP-OES) Inductivelycoupledplasmamassspectrometer (ICP-MS) Comparisation of flame OES, ICP-OES and ICP-MS Performancecharacteristics in OES, therecognizationandselection of analyticalline Limit of quantification, interferenceeffects Samplepreparationandcalibrationmethods Multi-elementelanalysis Someapplications
Instructor/s Assoc.Prof.Dr.Sema Bağdat
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~sbyasar