For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
ECH4017 | Plasma Processing for Semiconductor Manufacturing | 3 | 6 | Major | Bachelor/Master | Chemical Engineering | Korean | Yes | |
This lecture discusses plasma technology that is a key technology in semiconductor processing. - Plasma physical and electrical characteristics of plasmas - Chemical characteristics of plasmas - Plasma etching and deposition processes - Plasma diagnostics and monitoring technology | |||||||||
ECH4018 | Applications of Hybrid Materials | 3 | 6 | Major | Bachelor/Master | - | No | ||
This lecture discusses various organic and inorganic materials for semiconductor, display, and energy industries. - Organic and inorganic materials for semiconductor industry - Organic and inorganic materials for display industry - Organic and inorganic materials for energy industry | |||||||||
ECH4018 | Applications of Hybrid Materials | 3 | 6 | Major | Bachelor/Master | Chemical Engineering | - | No | |
This lecture discusses various organic and inorganic materials for semiconductor, display, and energy industries. - Organic and inorganic materials for semiconductor industry - Organic and inorganic materials for display industry - Organic and inorganic materials for energy industry | |||||||||
ECH4019 | Biomedical Material | 3 | 6 | Major | Bachelor/Master | Korean | Yes | ||
This course covers the basics and applications of medical biomaterials for students who are interested in careers in the pharmaceutical and bio-related fields after graduation. In the first half of the semester, lectures are focused on the physicochemical characteristics of medical biomaterials. In the second half of the semester, various application fields of medical biomaterials will be introduced. In addition to the fields of artificial organs and tissue engineering where biomaterials are widely used, the lectures will cover emerging materials for (targeted) drug delivery systems that can maximize the efficacy of drugs including conventional small molecular drugs, petides/proteins, antibodies, and genetic drugs. | |||||||||
ECH4019 | Biomedical Material | 3 | 6 | Major | Bachelor/Master | Chemical Engineering | Korean | Yes | |
This course covers the basics and applications of medical biomaterials for students who are interested in careers in the pharmaceutical and bio-related fields after graduation. In the first half of the semester, lectures are focused on the physicochemical characteristics of medical biomaterials. In the second half of the semester, various application fields of medical biomaterials will be introduced. In addition to the fields of artificial organs and tissue engineering where biomaterials are widely used, the lectures will cover emerging materials for (targeted) drug delivery systems that can maximize the efficacy of drugs including conventional small molecular drugs, petides/proteins, antibodies, and genetic drugs. | |||||||||
ECH5005 | Advanced Catalyst Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
Catalysts are used in a majority portion of chemical processes. This subject introduces important catalytic processes and deals with basic concepts and theories of catalysis. Types of catalysts and catalytic reactions, principles of catalysis, catalytic reaction kinetics, catalytic reactors, catalyst preparations, catalyst characterizations, representative catalytic processes are dealt with. | |||||||||
ECH5014 | Advanced Chemical Process Analysis | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
This course aims at proper formulation of chemicophysical processes into correct mathematical language and their solutions with valid interpretation. It covers problem formulation by elementary differential balances, solution including perturbation. | |||||||||
ECH5015 | Special Topics in Energy Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
This course deals with the new trend in energy technology. It covered the new technology of energy production and energy transportation. It also covered the particularly new and renewable energy technology. | |||||||||
ECH5017 | Advanced Nano - Processing Technology | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
Nano processing technologies required for various nano-devices are discussed. These include thin film deposition processes, patterning technologies, etching, self assembled monolayer (SAM), and carbon nanotube processing. Recent research and development trend are also discussed. | |||||||||
ECH5023 | Advanced Electrochemistry | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
In this lecture, operation principles of batteries and electrochemical processes will be investigated based on the knowledge of thermodynamics and chemical reaction engineering. Performance evaluation techniques and experimental analysis tools for the electrochemical systems are also introduced. Furthermore, vision of the electrochemical processes and its application system will be discussed and the leading-edge technologies in electrochemical and battery industry are introduced. Especially, it will focus on the analytical techniques to evaluate the performance of electrochemical system and its application. | |||||||||
ECH5028 | Functional and High Performance Polymers | 3 | 6 | Major | Master/Doctor | 1-4 | English | Yes | |
This lecture focused on the important materials and new technologies of the polymer industry. Topics surveyed in the recent series of lecture were water-soluble polymers, biodegradable polymers, hydrogel and stimuli-sensitive polymers, polymeric biomaterials, polymers for electronics and display applications, polymer nanocomposites, high-temperature high-performance polymers and fibers. Their synthesis, physical properties, and application are discussed. | |||||||||
ECH5029 | Special Topics in Composite Materials | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
In this class, the physical properties of composite materials composed of polymers and metal or ceramic materials. The methods for estimation of mechanical strength of composit materials will be carefully discussed with several examples. The mechanical properties, such as, toughness, aging process, impact resistance will be discussed. | |||||||||
ECH5042 | Advanced Chemical Engineering Thermodynamics | 3 | 6 | Major | Master/Doctor | 1-4 | English | Yes | |
For quantitative estimations of liquid-liquid and liquid-vapor equilibrium properties for mixtures, especially strong polar molecular mixtures, and solution of the problems of separation process and chemical process design, five-step approaching procedure will be given: 1.Use statistical thermodynamics 2.Apply molecular science theories 3.Derive physical models 4.Obtain model parameters from experimental measurements 5.Construct model to practice through a computer for engineering-design calculations. | |||||||||
ECH5047 | Fluidization Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
This course deals with the basic principles of fluidized bed and applications to chemical and physical processes. It covered the fundamentals of gas-solid flow , pressure drop , heat transfer, mass transfer and chemical reaction in the fluidized beds. | |||||||||
ECH5051 | Special Topics I on Semiconductor Chemical Processing | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
In this course, various topics on the semiconductor processing will be discussed from the bird's eye view on the semiconductor processing and detailed descriptions for each topic. The semiconductor processing includes CVD (chemical vapor deposition), etching process, etc. Other processing techniques will be also discussed on theoretical analysis and actual applications. This course explains the prospects and trends on the semiconductor industry as well. |