For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| EPO6004 | Advanced Polymer Electronics | 3 | 6 | Major | Doctor | 1-4 | Polymer Science and Engineering | - | No |
| This lecture will provide deep knowledge on the fundamentals of electrical or optical properties of polymeric materials used in electronics and information industries. | |||||||||
| EPO6006 | Advanced Polymer Morphology | 3 | 6 | Major | Doctor | 1-4 | Polymer Science and Engineering | - | No |
| Advanced study on the characteristics of surface and interphase between polymers and other materials such as metals and ceramics. | |||||||||
| EPO6008 | Studies on Photo-Functional Polymer | 3 | 6 | Major | Doctor | 1-4 | Polymer Science and Engineering | - | No |
| The theories and applications concerning the reaction and elctronic display devices of photo-reactive polymer will be deeply studied. | |||||||||
| ESC4001 | Fundamental Physics for Energy | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| We can’t overexaggerate the importance of accurate diagnosis of diseases in precision medicine. In a modern medical system, in particular, advanced medical imaging systems play a critical role for the accurate diagnosis. Among them, magnetic resonance imaging (MRI) has advantages of providing high spatial resolution with various image contrasts and no radiation exposure over other imaging modalities. In this course, we will discuss a variety of MRI-based diagnostic techniques especially from a standpoint of both engineering and clinics. | |||||||||
| ESC4002 | Introduction to electron-photon energy conversion system | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| Light (or solar) energy is one of most profound and easily accessible energy resources for human. Light energy can be exploited by itself or be converted to useful and environment-friendly forms. The lecture will be focused on fundamental principle of light energy conversion and relevant applications. Specifically, electricity – light interconversion materials, devices, and their applications will be discussed. As well as the basic principle, students will gain experience on fabrication of electricity-light conversion materials or devices by themselves under supervision of a lecturer. Furthermore, we will discuss about the state-of-the-art electricity-light interconversion research. | |||||||||
| ESC4003 | Quantum electronic device | 3 | 6 | Major | Bachelor/Master | 1-8 | Korean | Yes | |
| Current Si technology keeps reducing the device scale to nm such that the quantum behavior of electron transport starts emerging. The quantum mechanical behaviors are routinely observed from various nanomaterials, with which many new devices have been proposed. The lecture covers the fundamental principles of quantum mechanics and its related transport behaviors. Then, quantum electronic devices that have been proposed and demonstrated will be introduced. The course requires pre-learning in physics, electronics, and material science in the level of 3rd and 4th grade. | |||||||||
| ESC4004 | Heat transfer properties in low dimensional materials and their applications | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| The lecture will introduce the definition of heat energy, transport of heat energy in bulk and nanomaterials, roles of electrons and phonons in heat transport, transport behavior of electron and lattice vibration upon the material structure, conversion of the heat energy into electrical energy, and control of heat flow, and management of the waste heat. | |||||||||
| ESC4005 | Advanced course for quantum dot materials and devices | 3 | 6 | Major | Bachelor/Master | 1-8 | English | Yes | |
| 본 강의에서는 에너지 소자의 핵심 나노소재 기술을 소개한다. 콜로이드 나노 양자점을 모델 소재로 하여 이의 양자구속효과 및 이에 따른 전자 구조, 합성 메커니즘을 소개한다. 이를 바탕으로 다양한 나노양자점의 합성 및 광물리 특성 평가의 실험을 진행한다. 물리화학, 재료 기초, 화학 기초 실험 시수를 이수한 학생을 대상으로 나노소재 합성 및 이를 기반으로 하는 에너지 소자 연구를 하고자 하는 학생에게 도움이 될 것이다. | |||||||||
| ESC4006 | Advanced Catalyst Technology | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| Advanced catalyst technology course is designed to allow students an opportunity to learn the fundamentals and applications of catalyst and processes utilizing catalysis tool. Emphasis of this course will be placed on processes for large-scale industrial manufacturing of hydrogen, petroleum-based products, commodity and specialty chemicals, polymers, food products, and biomass-derived alternative diesel fuels utilizing catalysis technology as a powerful tool in synthesis. This course is particularly well suited for students who will be engaged in environmental, chemical and material engineering. | |||||||||
| ESC4007 | Fundamentals and Applications of Solar Cells | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| From issues concerning climate changes caused by excessive consumption of fossil fuels and sustainable energy sources, the use of solar energy as abundant renewable is becoming increasingly important. Thus the studies of solar cells which are one of the effective method for harvesting solar energy has emerged as the No. 1 challenges for science and engineering area. This course provides an introduction and fundamentals to solar cells geared toward high-efficiency, low-cost and long-term stability. It covers the basic operating principles, fabrication and characterization of solar cells, an then key materials for solar cells. The state-of-the-art solar cell types, for example, silicon, thin film, dye-sensitized, and organic-inorganic perovskite ones are surveyed and discussed. | |||||||||
| ESC4008 | Fundamentals and Applications of Batteries | 3 | 6 | Major | Bachelor/Master | 1-8 | English | Yes | |
| The purpose of this course is to gain an understanding of the basic concept of recent secondary battery systems and the applications. The projected doubling of world energy consumption within the next 50 years, coupled with the growing demand for cleaner energy sources has brought increasing awareness of the need for efficient energy storage systems. Chemical energy storage devices like batteries and electrochemical capacitors are among the leading electrical energy storage technologies today. In this course, students can learn the principles and techniques for developing state-of-art energy storage systems. Topics include fundamentals of solid state chemistry, materials processing for rechargeable batteries, and design of next generation secondary batteries. | |||||||||
| ESC4009 | Nano and Optics | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| In order to investigate nanomaterials used in energy conversion, energy storage, and energy saving devices, nanoscale optics technology which can observe the optical properties of individual nanostructure is needed. In this course, students can learn the principle of nano optics, various nanoscopies and characterization techniques for the investigation of energy related naomaterials. | |||||||||
| ESC4010 | Principle of Energy Materials Characterization | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| This course aims to deliver the working principles and fundamental physical theory of the instruments used for characterization of energy materials. The lecture mainly focuses on the basic theories of microscopy (optical, SEM and TEM), diffraction (X-ray diffraction and electron diffraction) and surface spectroscopy techniques (XPS, SIMS, Auger electron spectroscopy) which are widely used for materials characterization over diverse length scales (sub-atomic to macroscopic) and dimensions (bulk to surface). Upon completion of this course, the students will be familiar with basic principles of sophisticated scientific instruments and the acquired knowledge can be easily extended to other instruments. | |||||||||
| ESC4011 | Introduction to Energy Photon-physics | 3 | 6 | Major | Bachelor/Master | 1-8 | - | No | |
| This course provides an introductory study on the photophysical processes through light irradiation or light emission that occur in semiconductors, which covers from fundamental concepts to the research areas currently being studied. This class is designed to provide students with a comprehensive understanding of theory and experimental techniques in photophysics research. Solid state physics, energy transfer, energy conversion and storage, sensors, etc will be covered in this class. | |||||||||
| ESC4012 | Energy Storage and Conversion Material | 3 | 6 | Major | Bachelor/Master | 1-8 | English | Yes | |
| Interest in the energy storage/conversion field is growing to solve the environmental pollution problem caused by the use of fossil fuels, and the importance of developing new materials for efficient energy storage and conversion is emerging. In this class, the students can understand the theoretical characteristics of new materials being studied in various energy conversion research fields, including the most important new materials for anode/cathode/electrolyte in the field of secondary batteries. And, I will introduce the energy-storage/conversion-based materials in detail about how they are being developed industrially and socially. | |||||||||