Department of | Course code | Course name | Unit | Course description |
|---|---|---|---|
| GE130001 | Selected Topics in Bioenergy 1 | 3 | Fundamentals and theories of bioenergy and their related issues |
| GE130002 | Selected Topics in Bioenergy 2 | 3 | Fundamentals and theories of bioenergy and their related issues |
| GE130003 | Selected Topics in Energy Materials 1 | 3 | Fundamentals and theories of energy materials and their related issues |
| GE130004 | Selected Topics in Energy Materials 2 | 3 | Fundamentals and theories of energy materials and their related issues |
| GE130005 | Industrial Internship | 3 | Internship experiences in energy-related companies and Institutes |
| GE130006 | Selected Topics of Fusion Technology 1 | 3 | Recent progress of energy-related technology |
| GE130007 | Selected Topics of Fusion Technology 2 | 3 | Recent progress of energy-related technology |
| GE130008 | Selected Topics of Energy Industry 1 | 3 | Recent progress of energy-related companies |
| GE130009 | Selected Topics of Energy Industry 2 | 3 | Recent progress of energy-related companies |
| GE130010 | Technical Writing and Presentation in English | 3 | Practical training of English writing and presentation |
| GE130011 | Instrumental Analysis for Inorganic Materials | 3 | Theories and practical excercise for characterization and analysis of inorganic materials |
| GE130012 | Instrumental Analysis for Organic Compounds | 3 | Basic theories and practical excercise for characterization and analysis of organic compounds |
| GE130013 | Instrumental Analysis for Biotechnology | 3 | GC, HPLC, PCR, Real Time-PCR, Fermenter, anaerobic chamber, Gel electrophoresis, Electroporator Theories and practical excercise for biotechnology |
| GE130014 | Spectroscopic Analysis for Organic Compounds | 3 | The basic theories and practical Exercises of spectroscopic analysis of Organic compounds using NMR, IR, Mass and UV |
| GE130015 | Thesis Research in Energy technology 1 | 3 | Guide for experimental works and theories of thesis energy research |
| GE130016 | Thesis Research in Energy technology 2 | 3 | Guide for experimental works and theories of thesis energy research |
| GE130017 | Thesis Research in Energy technology 3 | 3 | Guide for experimental works and theories of thesis energy research |
| GE130018 | Thesis Research in Energy technology 4 | 3 | Guide for experimental works and theories of thesis energy research |
| GE130019 | Biomass Pretreatment Technology | 3 | Biomass pretreatment technology using physical, chemical and biological methods |
| GE130020 | Advanced Bioenergy Technology | 3 | Introduction to theories of bioenergy such as bioalcohol, biodiesel, and biogas and biohydrogen, and process development and it's purification technology |
| GE130021 | Metabolic Engineering for Bioenergy | 3 | Introduction to microbial metabolic engineering for the bioenergy production |
| GE130022 | Advanced Recombinant DNA Technology | 3 | Recombinant DNA technology for the construction of engineered microorganism |
| GE130023 | Biorefinery Technology | 3 | Biorefinery technology for the production of biomass-based biochemicals using enzymes and microorganisms |
| GE130024 | Advanced Biochemical Engineering | 3 | Principles of biochemical engineering using microorganism, plant and animal cells |
| GE130025 | Advanced Bioseparation Technology | 3 | Theories and practical application technologies on the bioseparation such as precipitation, chromatography, and other separation methods |
| GE130026 | Advanced Molecular Biotechnology | 3 | Understanding various types of biological interactions involving biologically important macromolecules, such as DNA, RNA and protein, and different types of cells as well as learning how these interactions are regulated |
| GE130027 | Fermentation and Enzyme Technology | 3 | Principles and practical application of fermentation and enzyme technology |
| GE130028 | Polymer Synthesis | 3 | Theories and practical applications of polymer synthesis |
| GE130029 | Polymer Chemistry | 3 | A multidisciplinary Polymer chemistry that deals with the chemical synthesis and chemical properties of polymers or macromolecules |
| GE130030 | Advanced Organic Synthesis | 3 | Introduction to effective carbon-carbon bond formations utilizing organometallic catalysts and various synthetic methods of natural products |
| GE130031 | Advanced Material Science Technology | 3 | Introduction to preparation, characterization, and applications of functionalized organic and inorganic materials |
| GE130032 | Advanced Energy-related Materials | 3 | Theories and practical excercise for characterization and analysis of energy-related materials |
| GE130033 | Advanced Solid-state Chemistry | 3 | Chemistry of solid phase reaction of organic and inorganic materials |
| GE130034 | Energy and Reaction Engineering | 3 | Heterogeneous/homogeneous catalysis and reactor design for energy production and conversion |
| GE130035 | Energy Transport Phenomena | 3 | Theories and applications of energy, fluid, heat, and mass transfer phenomena |
| GE130036 | Selected Topics in Energy Conversion and Storage | 3 | Optimizations and applications for energy conversion and storage |
| GE130037 | Advanced Nanobiotechnology | 3 | Nanobiotechnology includes nanodevices, nanoparticles, and nanoscale phenomena that occurs within the discipline of nanotechnology |
| GE130038 | Advanced Crystallography | 3 | Theories and characterization of crystalline organic and inorganic materials |
| GE130039 | Advanced Electrochemistry | 3 | Theories and applications for secondary batteries, fuel cell, and solar cell |
| GE130040 | Advanced Surface Chemistry | 3 | Chemistry on the surface and interface of materials |
| GE130041 | Advanved Molecular Biotechnology | 3 | This course aims at understandingand studying major advances recently made in the field of molecular biotechnology as well asbroadening knowledge of basic technologies in molecular biotechnology |
| GE130042 | Advanced research-related workshop with energy nano-materials | 3 | Global fusion technologies need sustainable research and development and in addition, closer inter-relationship between university's academic/ideal studies and industry's practical/effective applications. Especially, in the field of energy nano-materials, systematic methodologies for research design to promote more innovatory technologies to the industry are guided and practiced by fine-tuning and improving the performances of research and development based on the present graduate projects. This course will be co-shared with the professors with various majors in another department. |
| GE130043 | Selected Topics1 in Biorefinery | 3 | Seminars and Introduction of biorefinery technologies based on microbial metabolic engineering with recent papers |
| GE130044 | Membrane Technology for Energy and Environmental Application | 3 | The established, current trends and future prospects on membrane separation as a state-of-the-art technology for energy recovery, conservation and sustainability as well as its advancement for environmental clean-up |
| GE130045 | Microbial Synthetic Biology | 3 | This is an introductory course on the emerging scientific field of Synthetic Biology. The scope of this research field includes the design and construction of unnatural and new biological systems through assembly of well-characterized, standardized, and reusable components. The course will discuss basic principles of synthetic and molecular biology and its application in engineering the metabolism of prokaryotes, specifically Escherichia coli. |
| GE130046 | Separation technology in Adsorption and Ion Exchange | 3 | Adsorption and ion exchange are two of the most effective yet simple processes employed in separation technology. With the current interest on the development of advanced materials for the sequestration of contaminants from aqueous streams and for the recovery of precious compounds. This course is a good introduction for students to have a better understanding on these processes. |
| GE130047 | Selected Topics in Secondary Battery | 3 | Breakthroughs in new battery chemistries, novel electrode and electrolyte materials, system integration for mobile, and portable and stationary applications have paved the road toward an emerging market with unlimited potential. This course includes the latest advancements in Li-ion and beyond-Li-ion technologies such as metal-air and metal-ion batteries. With the demand for high efficiency energy storage and battery longevity at a historical high, this course will discuss key points to work towards a solution to our world’s energy crisis. |
| GE130048 | Stimuli-Responsive Materials Technology | 3 | Understanding of comprehensive scientific principles and developments of stimuli responsive materials including the fundamental materials properties required for designwith comprehensive scientific principles and developments of stimuli responsive materials, as well as the recent technological advances of stimuli responsive materials working in polymers, biochemistry, biotechnology and materials science |
| GE130049 | Materials and Technologies for Carbon Dioxide Capture | 3 | Knowledge of carbon dioxide capture technologies such as sorption by liquid sorbent, sorption by solid sorbent, and membrane, and further to understand different characteristic of organic, inorganic, and organic-inorganic hybrid materials which are applicable to carbon dioxide capture technologies |
| GE130050 | Software application in Energy and Environemental research | 3 | Data reporting, processing and interpretation is a critical aspect for graduate students when they are doing research, writing a technical report, scientific article or dissertation |
| GE130051 | Selected Topics in Metabolic Engineering | 3 | Recent advances and progresses in metabolic engineering |
| GE130052 | Advanced Nano-chemistry2 | 3 | Understanding of nanomaterial preparation via chemistry. In addition to the knowledge obtained in an undergraduate course, we learn more on nanomaterials chemistry including functional nanohybrid, and colloid materials. And topical studies on recent researches will be introduced. Class “Nanochemistry” is preliminary. |
| GE130053 | Materials and Technologies for Carbon Dioxide Conversion | 3 | Knowledge of carbon dioxide conversion technology by biological and chemical pathway, and further to understand different characteristic of organic, inorganic, and organic-inorganic hybrid materials which are applicable to carbon dioxide conversion technologies |
| GE130054 | Advanced Software Application in Energy and Environmental Research | 3 | Theories of data reporting, proccessing,interpretation by using software |
| GE130055 | Special Topics in Organic Synthesis | 3 | Introduction to effective carbon-carbon bond formations utilizing organometallic catalysts and various synthetic methods of natural products |
| GE130056 | CURRENT TOPICS IN BIOSENSORS | 3 | Introduction into the most common biosensing principle and mechanisms to practical issues such as immunoassays, detection of pathogens and environmental toxins |