Dept. of CHEMISTRYDepartment Chemistry
| Classification | Course subject code |
Title | Credits Tot.-Lec. -Exp. |
|
|---|---|---|---|---|
| Basic Required Courses |
Professional Skills | CH70436 | Writing Techniques of Chemistry Articlein English |
3 - 3 - 0 |
| Major Basic |
CH60371 CH60375 CH60380 CH60386 CH60397 CH70437 CH69612 CH69613 CH70438 CH70439 |
Advanced Inorganic Chemistry Advanced Physical Chemistry Advanced Analytical Chemistry Advanced Biochemistry Advanced Organic Chemistry Nanochemistry Seminar(I) Seminar(II) Seminar(Ⅲ) Seminar(Ⅳ) |
3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 1 - 0 - 2 1 - 0 - 2 1 - 0 - 2 1 - 0 - 2 |
|
| Major Elective |
CH61914 CH70440 CH70441 CH62498 CH70442 CH70443 CH70444 CH70445 CH70446 CH65168 CH70447 CH70448 CH70449 CH65734 CH70450 CH62070 CH61218 CH62569 CH66075 CH61636 CH62566 CH70451 CH70452 CH70453 CH70454 CH70455 CH70456 CH70457 CH70458 CH70459 CH62888 CH70460 CH70461 CH70462 CH70463 CH70464 |
Coordination Chemistry Inorganic Synthesis and Reactivity Supramolecular Chemistry Bioinorganic Chemistry Advanced Organometallic Chemistry Quantum Chemistry Modern Spectroscopy Chemical Physics Computational Chemistry Statistical Thermodynamics Chemical Reaction Dynamics Electrochemistry Separation Methods in Chemistry Surface Analysis Spectroscopic Analysis Analytical Instrumentation Protein Chemistry Biological Membrane Nucleic Acid Chemistry Immunological Chemistry Biopolymer Chemistry Advanced Organic Synthesis Organic Reaction Mechanisms Stereochemistry Advanced Organic Analysis Photochemistry Topics in Chemistry (Ⅰ) Topics in Chemistry (Ⅱ) Topics in Chemistry (Ⅲ) Topics in Chemistry (Ⅳ) Thesis Research Materials Chemistry(Ⅰ) Materials Chemistry(Ⅱ) Environmental Chemistry Experimental Techniques of Chemical Instruments Experimental Techniques of NMR |
3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 3 - 3 - 0 |
|
Graduation requirement
| Name of department |
Basic Required Courses |
Major | Minor | Liberal Elective |
Thesis Research |
Required Credits | ||||
|---|---|---|---|---|---|---|---|---|---|---|
| Leadership | Professional Skills | Major Basic |
Total |
Majo Elective |
||||||
| Department of chemistry |
MS | 9 | 9 | 9 | 6 | 24 | ||||
| Ph.D | 9 | 9 | 18 | 9 | 36 | |||||
| MS & Ph.D Combined | 18 | 18 | 30 | 12 | ||||||
CH70436 Writing Techniques of Chemistry Article in English
This course is to provide graduate students with practical writing skills for scientific papers. Also several rules for organizing references and naming convention are introduced. This lecture is done by English native speakers.
CH60371 Advanced Inorganic Chemistry
Based on atomic physics, quantum physics, and physical chemistry, this subject offers students to understand the concept of valence bond theory, crystal field theory, ligand field theory, and molecular orbital theory. Furthermore, the characteristics of inorganic and organometallic compounds including reactivity based on molecular symmetry.
CH60375 Advanced Physical Chemistry
This course reviews most important topics in the three major subjects of physical chemistry (thermodynamics, quantum chemistry, and chemical dynamics). Also more advanced topics in the relevant field will be discussed. The graduate students majoring in inorganic, analytical, and biological researches are strongly encouraged to take this course, since solid background in physical chemistry is required for investigating various chemical and biological problems based on chemical and physical principles
CH60380 Advanced Analytical Chemistry
The purpose of this course is to learn the basic and advanced principles of analytical chemistry and instrument analysis. This course will deal with buffered solution, spectroscopic methods, surface analysis, chromatography, and bioanalysis.
CH60386 Advanced Biochemistry
This course is intended to introduce the students to biophysical chemical principles and methods currently used in most research activities related to Biochemistry with emphasis in proteins and enzymes. Several special topics that used physical-chemistry methods as a background are to be discussed in depth. This course is intended to prepare the students to understand current issues in research in the areas of Biochemistry, Biophysics, Molecular Biology, Neuroscience or any other discipline that heavily relies on biochemical principles.
CH60397 Advanced Organic Chemistry
The course is to understand the structure/properties, hydrocarbon frameworks/alaenes, conformations of alkanes and cycloalkanes, alcohols and alkyl halides, structure and preparation of alkenes/elimination reactions, reactions of alkenes/addition reactions, stereochemistry, nucleophilic substitution, alkynes, conjugation in alkadienes and allylic system, aromaticity & benzene, subtituted benzenes, aldehydes and ketones, carboxylic acids, derivatives of carboxylic acids, conjugate addition, enolates and carbanions, amines, polycyclic & heterocyclic aromatic compounds, natural products, pericyclic reactions, carbohydrates, lipids, amino acids, and proteins. Depending on these concepts and functional groups, specific examples of syntheses of diverse organic compounds are covered.
CH69612 Seminar I
This course is for MD students in the chemistry department. Students are required to do literature searches on special topics in chemistry and to do oral presentations. Active participations in discussions are strongly encouraged. Also students are supposed to attend special department seminars to have more balanced views on the current topics in chemistry, physics, and biology.
CH69613 Seminar I
This course is for MD students in the chemistry department. Students are required to do literature searches on special topics in chemistry and to do oral presentations. Active participations in discussions are strongly encouraged. Also students are supposed to attend special department seminars to have more balanced views on the current topics in chemistry, physics, and biology.
CH70438 Seminar III
This course is for Ph.D. students in the chemistry department. Students are required to do literature searches on special topics in chemistry and to do oral presentations. Active participations in discussions are strongly encouraged. Also students are supposed to attend special department seminars to have more balanced views on the current topics in chemistry, physics, and biology.
CH70439 Seminar IV
This course is for Ph.D. students in the chemistry department. Students are required to do literature searches on special topics in chemistry and to do oral presentations. Active participations in discussions are strongly encouraged. Also students are supposed to attend special department seminars to have more balanced views on the current topics in chemistry, physics, and biology.
CH61914 Coordination Chemistry
This subject deals with the bond theory, structures, synthesis, reactivity, and characterization. Relationship between the stereo structures and the bond properties along with various spectroscopic and magnetic properties is offered.
CH70440 Inorganic Synthesis and Reactivity
This subject deals with the design, synthesis, and characterization of new ligand, transition metal complexes, and main group metal complexes along with the reactivity, catalysis, and reaction rate.
CH70441 Supramolecular Chemistry
Definition, design, and synthesis of supramolecular materials using self-assembly, molecular recognition, and weak interactions are treated along with the application and prospect of supramolecular chemistry.
CH62498 Bioinorganic Chemistry
This subject deals with the role and characterization of trace metal elements in biomolecules along with the synthesis, structures, and characteristics of biomimic compounds
CH70442 Advanced Organometallic Chemistry
Synthesis, reactivities, structures, and bonding modes of organometallic and cluster compounds are offered. Bond formation of M-C, intermediate, and catalytic activity are discussed.
CH70443 Quantum Chemistry
Quantum chemistry is an essential subject for understanding electronic structures of molecules and a prerequisite for those who are interested in molecular spectroscopic researches. This course provides fundamentally important theoretical backgrounds for describing molecules in various microscopic states. Non-relativistic quantum mechanical treatments of rotational and vibrational motions of molecule, hydrogen atom, helium atom, and general molecules will be discussed in details.
CH70444 Modern Spectroscopy
Molecular spectroscopy is a practical tool for investigating microscopic states of molecules in all area of chemistry. In this lecture, theoretical background on rotational, vibrational and electronic spectroscopy will be introduced. Various state-of-art instrumentations of modern molecular spectroscopy and spectrum assignments will be discussed
CH70445 Chemical Physics
Chemical physics is an interdisciplinary field in physics and chemistry. This field has evolved to explain a broad range of complex chemical problems using physics based approach. This course requires a basic knowledge of quantum chemistry and statistical mechanics. The current trend in experimental physical chemistry will be introduced along with its theoretical background.
CH70446 Computational Chemistry
Computational chemistry covers all the practical aspects of computational methods in chemistry. Recently with a dramatic improvement of computational powers, the computational chemistry program becomes a powerful tool to close the gap between theory and experiment. Basic theories on numerous computational methods and several well-known computational chemistry programs will be reviewed. Those who have a basic knowledge of quantum chemistry and statistical mechanics are strongly encouraged.
CH65168 Statistical Thermodynamics
Statistical thermodynamics is one of the important fields in understanding various chemical problems in macroscopic states. The concept of statistical ensembles and partition functions will be introduced. Based on the partition function, thermodynamic state functions and their application to chemical problems will be learned. Time correlation formalism will be reviewed and applications to chemical dynamics will be discussed. Also diffusionequations will be introduced in various view points.
CH70447 Chemical Reaction Dynamics
Chemical reaction dynamics is based on chemical kinetics and its related theory. This subject will deal with dynamic aspect of complex chemical reactions and reaction mechanisms, which are a generally interesting subject of all area of chemistry. Starting from elementary kinetic equations, Arrhenius equation, transition state theory, RRKM theory will be introduced. For chemical reactions in liquid state, theoretical approaches based on diffusion equations will be introduced to interpret kinetic data.
CH65168 Statistical Thermodynamics
Statistical thermodynamics is one of the important fields in understanding various chemical problems in macroscopic states. The concept of statistical ensembles and partition functions will be introduced. Based on the partition function, thermodynamic state functions and their application to chemical problems will be learned. Time correlation formalism will be reviewed and applications to chemical dynamics will be discussed. Also diffusionequations will be introduced in various view points.
CH70447 Chemical Reaction Dynamics
Chemical reaction dynamics is based on chemical kinetics and its related theory. This subject will deal with dynamic aspect of complex chemical reactions and reaction mechanisms, which are a generally interesting subject of all area of chemistry. Starting from elementary kinetic equations, Arrhenius equation, transition state theory, RRKM theory will be introduced. For chemical reactions in liquid state, theoretical approaches based on diffusion equations will be introduced to interpret kinetic data.
CH65168 Statistical Thermodynamics
Statistical thermodynamics is one of the important fields in understanding various chemical problems in macroscopic states. The concept of statistical ensembles and partition functions will be introduced. Based on the partition function, thermodynamic state functions and their application to chemical problems will be learned. Time correlation formalism will be reviewed and applications to chemical dynamics will be discussed. Also diffusionequations will be introduced in various view points.
CH70447 Chemical Reaction Dynamics
Chemical reaction dynamics is based on chemical kinetics and its related theory. This subject will deal with dynamic aspect of complex chemical reactions and reaction mechanisms, which are a generally interesting subject of all area of chemistry. Starting from elementary kinetic equations, Arrhenius equation, transition state theory, RRKM theory will be introduced. For chemical reactions in liquid state, theoretical approaches based on diffusion equations will be introduced to interpret kinetic data.
CH65168 Statistical Thermodynamics
Statistical thermodynamics is one of the important fields in understanding various chemical problems in macroscopic states. The concept of statistical ensembles and partition functions will be introduced. Based on the partition function, thermodynamic state functions and their application to chemical problems will be learned. Time correlation formalism will be reviewed and applications to chemical dynamics will be discussed. Also diffusionequations will be introduced in various view points.
CH70447 Chemical Reaction Dynamics
Chemical reaction dynamics is based on chemical kinetics and its related theory. This subject will deal with dynamic aspect of complex chemical reactions and reaction mechanisms, which are a generally interesting subject of all area of chemistry. Starting from elementary kinetic equations, Arrhenius equation, transition state theory, RRKM theory will be introduced. For chemical reactions in liquid state, theoretical approaches based on diffusion equations will be introduced to interpret kinetic data.
CH70448 Electrochemistry
Students will learn the basic principles of electrochemistry in terms of thermodynamics, kinetics, and mass transfer. The course includes chronoamperometry, cyclic voltammetry, electrochemical impedance, microelectrode, potentiometry, and modified electrode.
CH70449 Separation Methods in Chemistry
In this course, students will understand the basic principles of chromatography in terms of thermodynamics and kinetics and then learn different types of chromatographic methods (especially, GC, LC, HPLC, capillary electrophoresis, SFC, and FFF). Moreover, chromatographic techniques for microanalysis and separation techniques of biomolecules will be given.
CH65734 Surface analysis
The importance of surface analysis and the basic principle of vacuum systems will be presented first, and then the principles of XPS, UPS, SIMS, TEM, SEM, STM, AFM, Auger, and FT-IR will be explained.
CH70450 Spectroscopic Analysis
The interaction between matter and electromagnetic radiation will be presented first. After understanding the basic principles of optics and electronics, students will learn UV/Vis, IR, Raman, atomic spectroscopy, mass spectrometry, and X-ray spectroscopy.
CH62070 Analytical Instrumentation
The purpose of this course to learn circuit design and programming that are required for analytical chemists. After understanding the basics of analog circuits and digital circuits, students will learn how to make circuits by using Op-Amp and TTL. Moreover, students will learn how to make programs with C languages.
CH61218 Protein Chemistry
This course will focus on the practical aspects protein production and characterization, including the steps most commonly encountered in the development of targets for three-dimensional structural characterization by NMR or x-raycrystallography. New methods and optimization of standard approaches for high-throughput applications will be emphasized, including techniques ranging from chromatography and electrophoresis to mass spectrometery, fluorescence and NMR spectroscopy.
CH62569 Biological Membrane
This course discusses important areas of membrane biochemistry, including structure, biosynthesis, and processing of membrane components and their assembly, receptor-mediated endocytosis, the molecular basis of protein targeting, carbohydrate recognition in uptake and routing of glycoproteins, cell-cell interaction and cell surface adhesion events.
CH66075 Nucleic Acid Chemistry
The purpose of this course is to provide an in-depth examination of nucleic acid chemistry, three-dimensional structure and biological function .It is designed to complement courses in molecular biology and molecular genetics, and an graduate-level background in these subjects is assumed, as is a general background in biochemistry.
CH61636 Immunological Chemistry
This course describes the basic concepts of immunology and the application of immunochemistry to molecular, medical and veterinary biotechnology. Topics include: antigens and antibody-based, immune responses, vaccines, antibody diagnostics, immunosuppression, hypersensitivity, transplants, cancer, auto-immune diseases, immunodeficiencies (including AIDS) and current immunological techniques.
CH62566 Biopolymer Chemistry
This course discusses the synthesis of the polymer systems including natural molecules (peptide, polypeptide, protein, nucleic acid, polysaccharide, liposome and cell) and their physical chemistry characteristics, polymer gels and networks, macromolecular complexes, bioconjugates; thermodynamic characteristics, structures and analytical methods used for the examination of their aqueous solutions.
CH70451 Advanced Organic Synthesis
The course is to understand alkylation of nucleophilic carbon, enolates and enamines, reactions of carbon cucleophiles with carbonyl groups, functional group interconversion by nucleophlic substitution, electrophlilc additions to carbon-carbon multiple bonds, reduction of carbonyl and other functional groups, cycloadditions, sigmatropic rearrangements, and electrocyclic reactions.
CH70452 Organic Reaction Mechanisms
The course is to understand the mechanism for the understanding of various kinds of organic reactions, which can be utilized for practical applications of the organic reactions. After reviewing the basic thermodynamics and kinetics, acid catalyzed reaction, reactions in basic conditions, radical reactions, and cyclo-additions reactions, oranometallic reactions are covered.
CH70453 Stereochemistry
The course is to understand the three-dimensional structures of organic molecules and the chemistry caused by this three-dimensional structures. Symmetry, stereo-isomerism, optical activity, asymmetric induction, resolution, and conformation analysis are covered.
CH70454 Advanced Organic Analysis
The course is to understand H-1 nuclear magnetic resonance spectroscopy, C-13 nuclear magnetic resonance spectroscopy, infrared spectroscopy, ultraviolet-visible spectroscopy, high resolution mass. It also covers several types of two-dimensional NMR, DEPT and APT techniques for the structure identification of various kinds of complex organic compounds.
CH70455 Photochemistry
The course is to understand the fluorescence, phosphorescence, energy transfer, electron transfer, oscillator strength and chromophore.
CH70456 Topics in Chemistry I
This course teaches a specialized subject not included in the regular chemistry courses. Lecture contents involve traditional pure chemistry or various interdisciplinary subjects.
CH70457 Topics in Chemistry II
This course teaches a specialized subject not included in the regular chemistry courses. Lecture contents involve traditional pure chemistry or various interdisciplinary subjects.
CH70458 Topics in Chemistry III
This course teaches a specialized subject not included in the regular chemistry courses. Lecture contents involve traditional pure chemistry or various interdisciplinary subjects.
CH70459 Topics in Chemistry IV
This course teaches a specialized subject not included in the regular chemistry courses. Lecture contents involve traditional pure chemistry or various interdisciplinary subjects.