For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| EAM5729 | Physical Metallurgy | 3 | 6 | Major | Master/Doctor | - | No | ||
| Physical metallurgy is concerned with the physical and mechanical characteristics of metals and alloys. This field studies the properties of metals and alloys as affected by manufacturing, mechanical and heat treatment. | |||||||||
| EAM5730 | Academic Writing and Research Ethics in Materials Science | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
| This academic writing and research ethics course is designed to teach how to successfully write an academic writing and present the principles and directions of research ethics. | |||||||||
| EAM5731 | Experimental and Research Methodology in Materials Science | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
| The course aims to introduce the basics of experimental and research methodology related to Advanced Materials Science and Engineering.In this class methodologies related to diverse experiments and research carried out in Materials Science will be instructed. | |||||||||
| EAM5732 | Special Topics on Advanced Materials and Components | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
| This lecture is an industry-academia collaborative class aimed to strengthen the competitiveness of Materials and Components in Engineering. This lecture is composed of the teaching part and practical training part. The teaching part will be provided during the semester and practical training part will be carried out during the vacation. | |||||||||
| EAM5733 | Research Trends in Materials Science | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
| This course is an e-lecture, aimed to introduce the latest research papers of the faculty members in the School of Advanced Materials Science and Engineering. It is a flipped class-based lecture, where students first listen to the recorded lectures before class and discuss related contents with the lecturer during the class. | |||||||||
| EAM5734 | Electronic Materials for Wearable Electronics | 3 | 6 | Major | Master/Doctor | - | No | ||
| In this course, the fundamental electrical properties of materials for wearable electronics will be covered. Also we will discuss about the additional feature in wearable electronic materials, such as mechanical, chemical, optical properties. Especially, the lecture start from discussion about basic electronic structure in various materials and extend into synthesis/fabrication of organic and inorganic materials. Finally we will study about the recent trends in wearable electronic materials. | |||||||||
| EAM5735 | Artificial Intelligence in Materials and Science Engineering | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
| In this course, the fundamental theories and methodologies on artificial intelligence (AI) technology, which can be specifically applied to materials science and engineering, are covered. In particular, various AI algorithms such as machine learning and deep learning are covered, and big data analytics including mass data collection, signal processing, and statistical approach is also studied. Finally, case studies for experimental data are given by using above-mentioned AI algorithms and big-data analytics. | |||||||||
| EAM5736 | Materials and Systems for Energy and Sensor Applications | 3 | 6 | Major | Master/Doctor | - | No | ||
| Energy harvesting and sensors are one of the key emerging technologies for rapidly approaching smart life and smart city. This course aims to provide fundamental knowledge of energy conversion and sensing materials and structures along with its underlying theoretical principles. In addition, comprehensive overview on various kinds of energy harvesting technology ranging from wind, solar toward mechanical energy harvesting would be covered together with state-of the-art self-powered sensing technologies. Students will equipped with both academic and industrial expertise relevant to energy and sensing applications. | |||||||||
| EAM5737 | Inorganic Hybrid Materials | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
| There have been significant progress in the novel synthesis and various applications of Inorganic hybrid nanomaterials. In this course, various hybrid materials and nanocomposites based on the metals, metal-oxides, and carbons will be covered. In specific, students will study the basic understanding of the synthesis and the analysis of nanomaterials such as nanowire, nanoparticles, nanosheets, hollow structures etc, the chemical principles of the hybridization, and their physical and chemical properties. Finally, various applications such as energy-conversion technologies of water spitting and triboelectric nanogenerator, eco-friendly technologies to reduce fine dust, and the antibacterial technologies will be studied, based on the deep understanding of the nanomaterials. | |||||||||
| EAM5738 | Environmentally Benign Materials and Processing | 3 | 6 | Major | Master/Doctor | - | No | ||
| As the current technology is developing, it has been discovered that many emerging materials and their processing are potentially harmful for human beings and environment. In this lecture, we will discuss about potentially harmful aspects of emerging materials that can affect to human body or even nature, and possible solutions to avoid or minimize their effects. Also, we will discuss about solutions to solve the currently facing environmental issues based on emerging materials and their proper processing. Students will be evaluated by participants, case studies, team project, discussion, and mid-term and final examinations. | |||||||||
| EAM5739 | Individual Study in Materials Science and Engineering III | 3 | 6 | Major | Master/Doctor | 3-8 | Korean | Yes | |
| This course is intended for the students who are on the research-based track. Students take credits for the course by conducting their dissertation researches in the field of materials science and engineering. | |||||||||
| EAM5740 | Individual Study in Materials Science and Engineering VI | 6 | 18 | Major | Master/Doctor | 2-8 | - | No | |
| This course is intended for the students who are on the research-based track. Students take credits for the course by conducting their dissertation researches in the field of materials science and engineering. | |||||||||
| EAM5741 | Physics and Applications of Nanostructured Soft Matter | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
| Nanostructued Soft Matter is a Soft Matter with ordered mesostructure. Soft matter or soft condensed matter is distinguished from classical condensed matter that maintains pure solid properties such as metals and ceramics at room temperature or at a fairly high temperature. These materials can be deformed or structurally altered by thermal or mechanical stress of the magnitude of thermal fluctuations, due to a large number of internal degrees of freedom, weak interactions between structural elements, and a delicate balance between entropic and enthalpic contributions to the free energy. Soft materials are very important in a wide range of applications, such as structural and packaging polymeric materials, foams and adhesives, detergents and cosmetics, paints, food additives, lubricants, rubber in tires. The additional ordered mesotructures impose special physical properties and applications on soft matters. This course aims to introduce and understand the basic physics and real applications of the nanostructured soft matter. We will study a variety of nanostructured soft matter including organic nanosturctured materials, polymeric nanostructured materials, nanomaterials, and composite materials, which are highly desirable for the recently emerging foldable, wearable, and rollable flexible electronic devices and energy storage applications. | |||||||||
| EAM5742 | Material Science for Rechargeable Batteries | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
| This course aims to teach students about rechargeable batteries from a material science perspective. Rechargeable batteries, such as cathodes, anodes and electrolytes will be studied in this course in order to expand our understanding of other electrochemical energy conversion and storage devices. | |||||||||
| EAM5743 | Semiconductor Pakage Engineering | 3 | 6 | Major | Master/Doctor | - | No | ||
| Packaging is an essential part of advanced semiconductor manufacturing and design. It affects power, performance, and cost on a macro level, and the basic functionality of all chips on a micro level. In this course, we will study the basic of advanced packaging materials and fabrication process to understand advanced semiconductors packaging technologies. | |||||||||