For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| ECH7006 | Biotechnology Research Trends and Applications | 3 | 6 | Major | Bachelor/Master/Doctor | Chemical Engineering | Korean | Yes | |
| This course will teach about research and commercialization trends in the biotechnology sector. Cutting-edge applications from the healthcare, biosensing, sustainability, and energy fields will be covered to illustrate how biotechnology research is critical to future innovation. Industry case studies and recent research publication examples will be included as part of lectures and assignments. There will also be occasional guest lectures by international experts from the academic, government, and private industry sectors. Students will also learn how to read scientific research publications and to conduct basic analysis about the commercialization potential of scientific businesses. | |||||||||
| ECH7007 | Seminars for Chemical Engineers 1 | 1 | 2 | Major | Bachelor/Master/Doctor | Korean | Yes | ||
| Recent trends in research and development trends will be discussed by the invited experts from industries, institute and universities. | |||||||||
| ECH7007 | Seminars for Chemical Engineers 1 | 1 | 2 | Major | Bachelor/Master/Doctor | Chemical Engineering | Korean | Yes | |
| Recent trends in research and development trends will be discussed by the invited experts from industries, institute and universities. | |||||||||
| ECH7008 | Seminars for Chemical Engineers 2 | 1 | 2 | Major | Bachelor/Master/Doctor | Korean | Yes | ||
| Recent trends in research and development trends will be discussed by the invited experts from industries, institute and universities. | |||||||||
| ECH7008 | Seminars for Chemical Engineers 2 | 1 | 2 | Major | Bachelor/Master/Doctor | Chemical Engineering | Korean | Yes | |
| Recent trends in research and development trends will be discussed by the invited experts from industries, institute and universities. | |||||||||
| ECH7009 | Data Science for Chemical Engineering | 3 | 6 | Major | Bachelor/Master/Doctor | English | Yes | ||
| Chemical engineering for energy, bio, nano, materials, and multi-scale systems, is increasingly requiring its principles to scope with various data in the field, in addition to education on traditional majors. In particular, as professional demand for solving various problems related to cheme, such as enhancing energy efficiency, selecting chemical reaction pathways, designing biochemical processes for proteins synthesis, systems/synthetic biology, and optimizing process systems, is ever increasing, there is a growing need for advanced education that combines the unique expertise of cheme with the ability to interpret and generate data. In response, this course aims to educate cheme majors who utilize data to solve problems by providing basic education on learning, organizing, and interpreting practical data based on theories, governing equations, models, and simulation tools across cheme, utilizing computer science and algorithm-based databases, supplementing missing data, combining synthetic and practical data, reverse data engineering, and finally utilizing multi-scale data for problem solving and combining with artificial intelligence. This course targets senior undergraduate students who have completed all prerequisites to graduate students, and can be opened to CL for students from other majors. The course has a global orientation and aims to be an international language class. | |||||||||
| ECH7009 | Data Science for Chemical Engineering | 3 | 6 | Major | Bachelor/Master/Doctor | Chemical Engineering | English | Yes | |
| Chemical engineering for energy, bio, nano, materials, and multi-scale systems, is increasingly requiring its principles to scope with various data in the field, in addition to education on traditional majors. In particular, as professional demand for solving various problems related to cheme, such as enhancing energy efficiency, selecting chemical reaction pathways, designing biochemical processes for proteins synthesis, systems/synthetic biology, and optimizing process systems, is ever increasing, there is a growing need for advanced education that combines the unique expertise of cheme with the ability to interpret and generate data. In response, this course aims to educate cheme majors who utilize data to solve problems by providing basic education on learning, organizing, and interpreting practical data based on theories, governing equations, models, and simulation tools across cheme, utilizing computer science and algorithm-based databases, supplementing missing data, combining synthetic and practical data, reverse data engineering, and finally utilizing multi-scale data for problem solving and combining with artificial intelligence. This course targets senior undergraduate students who have completed all prerequisites to graduate students, and can be opened to CL for students from other majors. The course has a global orientation and aims to be an international language class. | |||||||||
| EEE2013 | Electronic Circuits I | 3 | 3 | Major | Bachelor | 2-3 | Electronic and Electrical Engineering | Korean,English,Korean | Yes |
| Topics include physical models of diodes and transistors, FET circuits, small- and large-signal operation, advanced treatment of active circuits, low frequency amplifiers, frequency response of amplifiers, and feedback amplifiers characteristics. | |||||||||
| EEE3006 | Modern Optics | 3 | 3 | Major | Bachelor | 3-4 | Electronic and Electrical Engineering | Korean | Yes |
| The goal of this class is to understand the propagation of light in free space and in materials. The light propagation is first explained by the wave theory or Huygens's principle. Then the principles of reflection and refraction are explained. Next the light propagation is explained by the oscillating dipoles of atoms. Based on this theory the light scattering is explained. Next the operation of simple optical systems such as simple lens system, compound lens system, camera and human eyes is explained. | |||||||||
| EPO4002 | Advanced Polymer Structure and PropertiesⅠ | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Polymer Science and Engineering | - | No |
| Relations between the structure and properties of the polymeric materials and introducing the basic concepts for molecular design of polymers. The optical properties, magnetic properties, rheological properties, chemical stability and trandport. | |||||||||
| EPO5005 | Advanced Polymer Structure & PropertiesⅡ | 3 | 6 | Major | Master/Doctor | 1-4 | Polymer Science and Engineering | - | No |
| Relations between the structure and properties of the polymeric materials and introducing the basic concepts for molecular design of polymers. The optical properties, magnetic properties, rheological properties, chemical stability and transport. | |||||||||
| EPO5009 | Rubber Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | Polymer Science and Engineering | - | No |
| Regarded as the most fundamental theory in the polymer materials, the rubber elasticity, synthesis, compounding and the effects of the fillers and plasticizers are covered during the course. The most advanced rubber formulation, additives, reaction kinetics, processing will be discussed. Particularly, 3D pringing materials for elastomers will be also covered. In addition to "Elastomer Engineering" and "Seminar on Elastomers" courses, it is recommended for the students who would like to take Vehicle Track under Interdisciplinary Materials Science & Engineering. | |||||||||
| EPO5016 | Functional Polymeric MaterialsⅠ | 3 | 6 | Major | Master/Doctor | 1-4 | Polymer Science and Engineering | - | No |
| The growth of polymer industry in the last decade has depends on the commodity products which are mass produced and consumed. This becomes no longer possible. Therefore, the most of current researches are centered on the development of polymeric materials with specific functionality. In this lecture, recent efforts to develop new functional material and the basic pricinciples behind the technology will be reviewed. | |||||||||
| EPO5017 | Functional Polymeric MaterialsⅡ | 3 | 6 | Major | Master/Doctor | 1-4 | Polymer Science and Engineering | - | No |
| The growth of polymer industry in the last decade has depends on the commodity products which are mass produced and consumed. This becomes no longer possible. Therefore, the most of current researches are centered on the development of polymeric materials with specific functionality. In this lecture, recent efforts to develop new functional material and the basic pricinciples behind the technology will be reviewed. | |||||||||
| EPO5030 | Advanced BiopolymersⅡ | 3 | 6 | Major | Master/Doctor | 1-4 | Polymer Science and Engineering | - | No |
| In 21 century, biomaterials research field will have important role in medical industry for the better human-life. Therefore drastic development in biomaterials is also respected for the purpose of resolving immune problem in implantation of artificial material to living body. So in this course, we deal with biological phenomena in contact with polymeric materials and living organs or cells. And we also find solutions above problems through design and synthesis of biocompatiable materials. | |||||||||