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교과과정

The development of key introductory courses in the three main areas is paramount since the students that are to be admitted have general science and engineering backgrounds. A student would need to select a track that is one of the three main areas. Each track will have two (2) mandatory core courses that will prepare the students for follow-on courses with more technical depth.
 
The department of energy systems engineering offers a Doctor of Philosophy (PhD) degree.
The PhD degree requires a minimum of 72 semester credit hours beyond a baccalaureate degree, and a minimum of 33 semester credit hours beyond a Master of science degree. Almost half of the credit hours are from the students research. A PhD student must pass a qualifying examination before the end of the students fourth semester of study to continue in the program.
 
1. Thermodynamics of energy systems
2. Electrochemistry
3. Seminars on energy systems
 
Track one : Fuel cells   Track two : Batteries
1. Advanced Electrochemistry
2. Materials for Fuel Cells
3. Electrocatalysis to Fuel Cells
4. Biofuel Cell Technology
5. Computational Design of Energy Materials
  1. Advanced Electrochemistry
2. Electrochemical Technology
3. Electrochemical Energy Conversion & Storage
4. Special Topic on Li-ion Batteries
5. Computational Design of Energy Materials
6. Electrode Materials for Rechargeable Batteries
7. Solid State Chemistry
     
rack three : Photovoltaics   Environment / Energy Systems (Non Track)
1. Solid State Physics
2. Solid State Chemistry
3. Surface Engineering and Thin Film Technology
4. Advanced Material Chemistry for Photovoltaics
5. Spectroscopy
6. Advanced Optoelectronic Materials & Devices
7. Advanced Thin Film Photovoltaics
8. Organic Photovoltaic Materials
  1. Environmental Chemistry
2. Climate Changes
3. Environmental Policy of Energy
4. Introduction to Electric Power Systems
5. Solar Energy Applications
6. Geothermal Energy
7. Electrochemical Energy System
8. Smart Grids and Electric Energy Systems

Curriculum

Code Title Credit Track Type Time
CR500 Management of Science & Technology 3 Common lecture lecture(3)
CR524 Special topics for Smart Grid 3 Common lecture lecture(3)
ES601 Thermodynamics of Energy Systems 3 Common lecture lecture(3)
ES603 Electrochemistry 3 Common lecture lecture(3)
ES604 Fundamentals of Materials Science and Engineering 3 Common lecture lecture(3)
ES621 Instrumental Analysis for Energy Materials 3 Common lecture+lab lecture(2) lab(1)
ES622 Chemistry of Nanomaterials 3 Common lecture lecture(3)
ES623 X-ray Crystallography for Materials Science 3 Common lecture lecture(3)
ES700 Advanced Electrochemistry 3 Common lecture lecture(3)
ES701 Materials for Fuel Cells 3 F lecture lecture(3)
ES703 Electrocatalysis to Fuel Cells 3 F lecture lecture(3)
ES705 Biofuel Cell Technology 3 F lecture lecture(3)
ES721 Electrochemical Technology 3 B lecture lecture(3)
ES723 Electrochemical Energy Conversion & Storage 3 B/F lecture lecture(3)
ES724 Special Topic on Li-ion Batteries 3 B lecture lecture(3)
ES725 Computational Design of Energy Materials 3 B/F lecture+lab lecture(3) lab(1)
ES726 Electrode Materials for Rechargeable Batteries 3 B lecture lecture(3)
ES740 Solid State Physics 3 common lecture lecture(3)
ES741 Solid State Chemistry 3 Common lecture lecture(3)
ES742 Surface Engineering and Thin Film Technology 3 S lecture lecture(3)
ES743 Advanced Material Chemistry for Photovoltaics 3 S lecture lecture(3)
ES744 Spectroscopy 3 S lecture lecture(3)
ES748 Advanced Optoelectronic Materials & Devices  3 S lecture lecture(3)
ES750 Advanced Thin Film Photovoltaics 3 S lecture lecture(3)
ES751 Organic Photovoltaic Materials 3 S lecture lecture(3)
ES760 Environmental Chemistry 3 E lecture lecture(3)
ES762 Climate Changes 3 E lecture lecture(3)
ES764 Environmental Policy of Energy 3 E lecture lecture(3)
ES765 Introduction to Electric Power Systems 3 E lecture lecture(3)
ES766 Solar Energy Applications 3 S/E lecture lecture(3)
ES767 Geothermal Energy 3 E lecture lecture(3)
ES769 Electrochemical Energy System 3 E lecture lecture(3)
ES770 Smart Grids and Electric Energy Systems 3 E lecture lecture(3)
ES800 Special Topics I - Fuel Cells Varies F lecture lecture
ES801 Special Topics II - Batteries Varies B lecture lecture
ES802 Special Topics III - Photovoltaics Varies S lecture lecture
ES803 Special Topics IV - Environment Varies E lecture lecture
ES804 Special Topics V - Energy Systems Varies E lecture lecture
ES810 Collaborative Topics on Fuel Cells 3 lecture+lab lecture(1) lab(2)
ES820 Collaborative Topics on Batteries 3 lecture+lab lecture(1) lab(2)
ES840 Collaborative Topics on Photovoltaics 3 lecture+lab lecture(1) lab(2)
ES860 Collaborative Topics on Environment 3 lecture+lab lecture(1) lab(2)
ES861 Collaborative Topics on Energy Systems 3 lecture+lab lecture(1) lab(2)
ES900 Thesis(M.S.) Varies lab lab
ES901 Thesis(Ph.D) Varies lab lab
ES902 Capstone(M.S.) Varies lab lab
ES903 Capstone(Ph.D) Varies lab lab
ES904 Internship(M.S.) 1 lab lab(1)
ES905 Internship(Ph.D) 1 lab lab(1)
ES906 Seminar(M.S.) 1 lab lab(1)
ES907 Seminar(Ph.D) 1 lab lab(1)
※ B : Battery, F : Fuel Cell, S : Solar Cell, E : Energy

Course Description