Curriculum
| Summary | English |
|---|---|
| Computational Chemistry | |
| Use a computer to calculate the structure, energy, and responsiveness of molecules, study the theories and methods used at this time, and find out the pros and cons. | |
| Advanced Molecular Spectroscopy | |
| Select specific areas of molecular spectroscopy and study in depth | |
| Advanced Biochemistry | |
| It is to be understood throughout the biochemistry and specifically focuses on areas of recent development. | |
| Advanced Organic Chemistry II | |
| On the basis of basic organic chemistry, study organic chemistry required for the completion and research of graduate courses. This is part of the second semester of the entire required course. | |
| Instrumental Analysis | |
| Study the theory and principles of spectroscopy, analysis methods, and applications, including spectroscopy, chromatographic, electrochemical, and other special analysis methods. | |
| Inorganic Chemistry Seminar | |
| Identify the latest research trends and new findings in the field of inorganic chemistry and give a lecture on its principles and applicability | |
| Physical Chemistry Seminar | |
| Through the seminar form, will study various research trends currently being conducted in the field of physics chemistry. | |
| Special Topics in Analysis | |
| The medical institution lectures on the latest trend and application of analytical and chemical research. | |
| Organic Structure and Reactivity | |
| Learn about the relationship between the structure of organic compounds and their responsiveness. | |
| Organometallic Chemistry | |
| Establish theories and principles of how organic compounds are identified and structured (UV-VIS, IR, NMR, MS, ESR, etc.), and provide a lecture on how to interpret and use of spectra. | |
| Organic Analytical Chemistry | |
| Organic metal compounds are systematically considered, with an emphasis on the structure, chemical bonds, and the mechanism of reaction. | |
| Organic Syntheis | |
| You will learn about all the reactions associated with organic synthesis and how to break off the production of various chemical bonds found in organic compounds. They also learn how to interpose a function. | |
| Organic Chemistry Seminar | |
| Study recent research trends in organic chemistry through seminar forms. | |
| Applied Analytical Chemistry | |
| It covers the application of theoretical and analytical techniques on the methods of separation and extraction, such as extraction of two pairs or a killate. | |
| Applied Biochemistry | |
| Deals with the structure of cells, nucleic acids and genes, genetic pathways, genetic factors, synthesis of proteins and the biosynthesis of genetic proteins. | |
| Chemistry of natural products | |
| The basic knowledge of natural chemicals is addressed by addressing the general content of the production and response of natural substances with the general organic response mechanism. | |
| Heterocyclic Chemistry | |
| Covers the synthesis and reaction of the hetero compound, the positive reaction, the axial reaction, and the potential response. | |
| Chemical Separation Method | |
| It covers chemical reactions in the solution, theories of chemical equilibrium, and various chemical separations and errors used in applications and analyses. | |
| Chemistry Thermodynamics | |
| Understand the laws of thermodynamics and the structure and process of response by heat of reaction and discuss basic statistical thermodynamics, solution thermodynamics, etc. | |
| Synthetic Medicinal Chemistry | |
| Drug design and synthesis, which are appropriate areas of medicine chemistry, are considered from the perspective of organic synthesis | |
| Polymer Nano Chemistry | |
| Study the application of nanomaterials using polymer materials and study physical properties. | |
| Nano Physical Chemistry | |
| Electronic strucutre, OFET/ OLED/ Photovoltaics overview, photophysicsElectronic strucutre, OFET/ OLED/ Photovoltaics overview, photophysics | |
| Seminar for Biochemistry | |
| Identify recent research trends and new findings in the field of biochemistry and give a lecture on their principles and applicability. | |
| Solid-State Chemistry | |
| Understand the synthesis and structure of the various solid compounds and examine their electrical, genetic, optical and magnetic experiments to introduce their applicability to the high-tech industry. | |
| Stereo Chemistry | |
| The effects of organic molecular three-dimensional structures and spatial structures on organic response, the three-dimensional effects of substitution, and the relationship between molecular structure and response. | |
| Medicinal Chemistry | |
| Drug design, new drug development, and other aspects of medicine chemistry are considered from the perspective of organic chemistry. | |
| Quantum Chemistry | |
| Lecture on energy level, wave equation, atom and molecule motion and electron orbital theory, molecular spectroscopic theory, perturbation theory through quantum concept of energy. | |
| Enzyme Chemistry | |
| Understand the structure, nature, kinetics of the enzyme and its reaction mechanism. | |
| Analytical Chemistry Seminar | |
| Understand recent research trends and new analytical methods in analytical chemistry, acquire the principles and applicability, and establish research directions. | |
| Environmental Chemistry | |
| Lecture on the treatment and analysis methods of various environmental samples, and the principles and application methods of experimental methods. | |
| Advanced Physical Chemistry | |
| This course deals with research topics in modern physics chemistry and theoretical concepts. | |
| Advanced Analytical Chemistry | |
| Study the theories and principles of general analytical chemistry in depth and give lectures on the theory and practical applications of the latest chemical analysis methods. | |
| Drug Design and Synthesis | |
| Study the principles of operation, rational design and synthesis of new drugs | |
| Chemical Biology | |
| Understand and study biology based on analytical chemistry and organic chemistry. | |
| Advanced-Physical Chemistry | |
| Overall, it discusses thermodynamics, electrochemistry, change of phase, molecular tectonics, quantum theory, gas, liquid, and solid theory. | |
| Polymeric Materials Chemistry | |
| Learn the properties of polymeric materials and discuss the properties of materials according to molecular structure. | |
| Recent Advances Inorganic Chemistry | |
| This seminar will cover various research trends in inorganic chemistry. | |
| Applied Computational Chemistry | |
| This course introduces quantum chemistry to theoretical calculations of molecular and reaction properties. | |
| Chemical Kinetics | |
| The kinetics of inorganic and organic chemistry are systematically discussed, and the role and mechanism of the catalyst are understood in detail. | |
| Advanced Quantum Chemistry | |
| Select specific fields of quantum chemistry and study in depth. | |
| Photochemistry | |
| Understand the various cases of using light energy for chemical reactions and understand the relationship between photons and matter. | |
| Special topics for functional polymers 1 | |
| Covers the topic of recent research on functional polymeric materials and studies relevant theories. | |
| Heterogeneous Inorganic Catalysts | |
| How heterogeneous inorganic catalysts are used in the chemical industry and their structure, physicochemical properties and reactivity are discussed. | |
| Special Topics in Analytical Chemistry | |
| Use various methods, such as solvent extraction, and investigate the theory and actual application of specimen separation and concentration methods. | |
| Special Topics in Organic Chemistry | |
| Covers topic including molecular orbital theory, organic photochemistry, natural materials chemistry, and heterocyclic chemistry. | |
| Technology Innovation and Patent | |
| This course deals with the development of chemistry-based new materials, electronic materials and polymer technology and related patents. | |
| Nano- & bio-polymer chemistry | |
| Study the nano and biometrics applications of polymer chemistry | |
| Special Topics in Organic Synthesis | |
| Study the structural and selective field of organic synthesis research in advanced courses. | |
| Green Chemistry Seminar | |
| This is a seminar course on chemical reactions that solve environmentally friendly or environmental problems. | |
| Advanced Materials Chemistry | |
| Study synthesis and analysis of inorganic materials, and study current trends of applications using inorganic materials. | |
| Chemical Reaction Dynamics | |
| We will investigate collisions between atoms and molecules from a quantum-mechanical and microscopic point of view and understand the reaction rate from the same point of view. | |
| Enzymology | |
| Study the types, properties and mechanisms of enzymes and their applications in biochemistry research. | |
| Advanced Biochemistry I | |
| This course focuses on cell signaling in biochemistry and focuses on recent developments. | |
| Advanced Biochemistry II | |
| This course focuses on the metabolism of biochemistry and focuses on recent developments. | |
| Special Topics in Biochemistry I | |
| Select and study specific fields of biochemistry | |
| Special Topics in Biochemistry II | |
| Select and study specific fields of biochemistry | |
| Advanced Organic Chemistry Laboratory | |
| Study basic theories and practical methods of organic chemistry experiments necessary to conduct advanced courses and independent research | |
| Nano Materials Chemistry | |
| 나노재료의 물리적, 화학적 특성을 심화학습하고, 나노소재의 다양한 응용분야에 대하여 학습한다. | |
| Contemporary Electroanalytical Chemistry | |
| Learn about the analysis of materials using the latest electrochemistry methods. | |
| Advanced Inorganic Materials | |
| After studying the synthesis of various inorganic materials and crystal structure analysis, we learn the application of energy and optical field. | |
| Advanced Organic Chemistry I | |
| On the basis of basic organic chemistry, study organic chemistry required for the completion and research of graduate courses. This is part of the first semester of all required courses. | |
| Special Topics in Physical Chemistry | |
| Study the basic principles of quantum chemistry. Study Schrodinger equations and the meaning of wave functions. Learn how to use the equations. Learn the way to explain the observation results. | |
| Special Topics in Applied Chemistry I | |
| Identify the latest research trends in chemical and applied chemistry, discuss and publish research findings, introduce trends, and predict the future. | |
| Special Topics in Applied Chemistry II | |
| To share the latest research trends in the field of chemistry and applied chemistry, and organize by topic, giving them a comprehensive view of the research field. |