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Course&Curriculum

For more details on the courses, please refer to the Course Catalog

교육과정
Code Course Title Credit Learning Time Division Degree Grade Note Language Availability
AIM5001 Theories of Artificial Intelligence 3 6 Major Master/Doctor Artificial Intelligence Korean Yes
In this course students will learn the fundamental algorithms of Aritificial Intelligence including the problem solving techniques, search algorithms, logical agents, knowledge representation, inference, and planning. After taking the course, students are expected to implement the algorithms using computer programming languages.
AIM5002 Theory of Machine Learning 3 6 Major Master/Doctor 1-4 Artificial Intelligence Korean Yes
MachineLearningisthestudyofhowtobuildcomputersystemsthatlearnfromexperience.Thiscoursewillgiveanoverviewofmanymodelsandalgorithmsusedinmodernmachinelearning,includinggeneralizedlinearmodels,multi-layerneuralnetworks,supportvectormachines,Bayesianbeliefnetworks,clustering,anddimension reduction.
COV7003 Academic Writing and Research Ethics 3 3 6 Major Master/Doctor SKKU Institute for Convergence Korean,English Yes
This course trains graduate students to become more effective, efficient, and confident writers. This is a hands-on course that emphasizes interactive examples and practice. In the first four weeks, we will review principles of effective writing, examples of good and bad writing, and tips for making the writing process easier. In the second four weeks, we will examine issues specific to scientific writing, including: authorship, peer review, the format of an original manuscript, and research ethics. Students will complete editing exercises, write two short papers, and edit each others’ work. The primary audience is graduate majors, graduate students in any disciplines, and professional scientists.
EAM5207 Electronic Properties of Advanced Material 3 6 Major Master/Doctor 1-4 Advanced Materials Science and Engineering - No
Structure and behavior of atoms and electrons in solids ; bonding, energy band, Brillouin zone construction, free electron theory, etc.. Theory and properties of electrical, thermal, magnetic, and optical materials.
ECE5939 Solar Cell Characterization 3 6 Major Master/Doctor 1-8 Electrical and Computer Engineering English Yes
The lecture covers solar cell material characterization, optical, chemical, physical, and electrical property characterization in solar cell fabrication process. Various device characterization methods including destructive and non-destructive analysis methods will be discussed for the fabrication completed solar cells. Electrical property influencing factors will be treated to achieve the higher efficiency of solar cell.
ESC5003 Fuel Cells, Batteries and Supercapacitors I 3 6 Major Master/Doctor 1-8 Energy Science - No
This course will cover fundamentals of electrochemical storage and generation of electricity. Topics will include introduction into electrochemistry and structure and kinetics of charge transfer at the electrode / electrolyte interface. Electrochemical technologies utilized in the batteries and supercapacitors will be explained. This will be followed by operational principles of fuel cells, electrocatalysis of fuel cell reactions, and experimental methods in low temperature fuel cells.
ESC5009 Fuel Cells, Batteries and Supercapacitors II 3 6 Major Master/Doctor 1-8 Energy Science - No
This course will cover engineering and technology development aspects of fuel cells. Topics will include modeling analyses of fuel cells from half-cell to systems; fuel technology: storage, transmission, distribution and safety; current status and techno-economic assessment of six leading fuel cell technologies; and real world applications of fuel cell power plants and sources. Benefits of nanomaterials in fuel cells construction will be discussed as well.
ESC5043 Spectroscopy for Energy Nanomaterials 3 6 Major Master/Doctor 1-8 Energy Science - No
This course is aimed to provide the students with a general and basic knowledge on what spectroscopy is with an emphasis on characterization of nanomaterials. The course will cover basic spectroscopy and photochemistry including Uv/vis, fluorescence, phosphorescence spectroscopy, Raman spectroscopy, NMR, mass spectrometry, etc. to characterize nanomaterials practically. This course will connect nanotechnology with energy science. Practical practice will be planned to get spectra and data, so that students will be familiar with data analysis.
ESC5044 Physical Bioscience for Energy 3 6 Major Master/Doctor 1-8 Energy Science - No
Biological energy conversion has been explored for several years, in pursuit of cheap, environmental, renewable mass production of biofuel. This course covers biophysical chemistry as well as synthetic biology, genetic engineering, and system biology, etc. in terms of theoretical and practical approaches. This course will be beneficial to students due to interdisciplinary approaches. Also this topic will provide the graduate students with biophysics and physical biochemistry to enrich their research. The scope of this approach will reach into biofuel generation/hydrogen production/biomass reproduction.
ESC5046 Energy Device Characterization 3 6 Major Master/Doctor 1-8 Energy Science - No
The lecture covers energy device related material characterization, optical, chemical, physical, and electrical property characterization in energy device fabrication process. Various device characterization methods including destructive and non-destructive analysis methods will be discussed for the fabrication completed energy device. Electrical property influencing factors will be treated to achieve the higher efficiency of energy device.
ESC5047 Solar Energy 3 6 Major Master/Doctor 1-8 Energy Science English Yes
Almost all range of solar energy related topics are covered. After an introduction of basic optical phenomena, the lecture covers different aspect of the solar energy conversion efficiencies. Since energy conversion requires internal built-in potential to segregate photo-generated electron-hole pairs, various junction types are addressed such as MS, MIS, SIS, PN, PIN, homojunction, and heterojunction. Other practical issues are treated in terms of device fabrication, characterization, simulation, and future research trend.
NAT4001 Special Lectures in Biotechnology Start-ups 3 6 Major Bachelor/Master Science - No
Invite the CEO or chief technology officer of on-campus/off-campus biotechnology companies founded based on life science/engineering technology, and venture capital investors who invest in biotechnology companies to introduce technology-based startup stories and entrepreneurship, as well as advice to students who want to start a biotechnology company in the future. At the end of the lecture, students formulate and present a plan for starting a virtual biotechnology company.
PHY4005 Physics Co-op I 1 2 Major Bachelor/Master 3-4
1-4
- No
By experiencing how physics is applied in industries through the co-op for about two weeks, understanding of Physics is increased and students' preparation for getting jobs will be improved.
PHY4006 Physics Co-op II 2 4 Major Bachelor/Master 3-4
1-4
- No
By experiencing how physics is applied in industries through the co-op for about four weeks, understanding of Physics is increased and students' preparation for getting jobs will be improved.
PHY4007 Physics Co-op III 3 6 Major Bachelor/Master 3-4
1-4
- No
By experiencing how physics is applied in industries through the co-op for about six weeks, understanding of Physics is increased and students' preparation for getting jobs will be improved.