Curriculum
| Course Number | Summary | English |
|---|---|---|
| AMIE7100 | Special Topics in Energy Nanomaterials | |
| This?class?is?for?the?students?in?department?of?advanced?materials?engineering?for?information?&?electronics?including?other?departments?in?college?of?engineering.?The?class?will?consider?the?importance?of?advanced?materials?based?on?the?most?recent?published?research?paper.?The?electrical,?chemical,?and?mechanical?properties?of?advanced?materials?will?be?discussed?in?the?class.?Also,?the?application?such?as?organic?light?emitting?devices,?quantum?dot?light?emitting?devices,?photovoltaic?devices?and?energy?storage?will?be?considered?during?the?class.?The?class?will?provide?essential?knowledge?for?the?advanced?nano?materials.?This?course?is?a?project-based?learning?(PBL)?class?that?focuses?on?improving?students'?creativity?and?problem?solving?skills. | ||
| AMIE7101 | Electrochemistry | |
| This course will provide introduction of electrochemistry and fundamental understanding on electrochemical reactions take place in electrochemical systems and various related theories. | ||
| AMIE7102 | Bio-medical devices and materials | |
| This course will provide an overview of the basic and advanced principles, concepts, and operations of bio-medical devices and materials. We will review some background of materials science, its application to bioinstrumentation, and current research in this field. Systems for measuring biologic signals will be discussed including biopotentials (e.g., EEG, ECG etc), stress and strain, pressure, and temperature. | ||
| AMIE7103 | Principles and practice of atomic layer deposition process | |
| .This lecture is an advanced course for understanding of the atomic layer deposition process. In this course we study the principles of the thin film formation mechanism in the atomic layer deposition process. Based on the understanding of the fundamental of the atomic layer deposition process, we study the practical knowledment for the actual process development of the atomic layer deposition process. | ||
| AMIE7104 | Flexible Electronics | |
| Description of the theory of conjugated polymer, a representative material of flexible electronic devices, and its application as an electronic material, lectures on various printing technologies (such as Screen, Gravure, Slot-die, Reverse-gravure, Flexo, Imprinting, etc.), material and electrode processing technology on flexible substrates, lectures on various encapsulation technologies for flexible electronic devices (rigid, hybrid, thin film, etc.), and finally introduction of the development direction of future flexible electronic devices will be lectured. | ||
| AMIE7105 | Memristor devices and technology for application in neuromorphic computing | |
| This course deals with memristor devices which are a key circuit element for implementing neuromorphic computing hardware. In this course, learn about various memristor devices such as redox-based, ferroelectric-based, phase-change-based etc. using state-change of materials, and electrical properties demanding from neuromorphic computing hardware. | ||
| AMIE721 | Advanced Materials Engineering for Information and Electronics SeminarⅠ | |
|
Seminar class for graduate students based on the their research and experimental results. |
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| AMIE722 | Advanced Materials Engineering for Information and Electronics Seminar II | |
| Seminar class for graduate students based on the their research and experimental results. | ||
| AMIE723 | Advanced Materials Engineering for Information and Electronics Seminar III | |
| Seminar class for graduate students based on the their research and experimental results. | ||
| AMIE726 | Advanced Materials Engineering for Information and ElectronicsⅠ | |
| This course is a seminar class for analysis and discussion of new research results and new application of advanced materials. |
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| AMIE728 | Advanced Materials Engineering for Information and Electronics Seminar 5 | |
| Seminar class for graduate students based on the their research and experimental results. | ||
| AMIE729 | Advanced Materials Engineering for Information and Electronics Seminar6 | |
| Seminar class for graduate students based on the their research and experimental results. | ||
| AMIE742 | Organic Electronic Materials | |
| An introductory course to the organic as well as inorganic materials for electronics and information nformology industries. A ogoad coverage of electronic materials that today’s chemical and material engineersA eed, incs ding elementary materials science concept, electrical and thermal conduction in icsids, modern theory of solids, semiconductors, and organic light emitting diodes(OLED). | ||
| AMIE743 | Advanced Energy Materials Engineering | |
| This course will learn about energy to rage devices such as solar cells, rechargeable batteries and learn about the materials used to make these devices. Applications field of these devices and the trend of technological development will be discussed. | ||
| AMIE744 | Oxide electronics | |
| This course deals with over all electronic properties of electronic ceramics, especially in view point of oxide electronics. The defect chemistry of oxide bulk and thin film will be intensively discussed. In addition, operation principles and technical features of various practical applications will be introduced. | ||
| AMIE7511 | Semiconductor/Display Device | |
| This course deals with overall advanced process technologies such as photolithograph/ Surface cleaning/ Ion implantation/ thin film process/ annealing process/ etching processes for fabrication of flat panel displays and semiconductor devices. In addition, advanced PVD/ CVD/ dry etching processes based on plasma technology were introduced for understanding of advanced device fabrication process. | ||
| AMIE7513 | Principles and practice of nanocomposites | |
| This lecture is an advanced course for understanding of the recently developed nanomaterials and their composites. In this course we study the principles of the manufacturing, analysis, and application of nanocomposite materials with new functionality through convergence between nanomaterials and matrix. | ||
| AMIE7514 | Principles and practice of micro-bioelectronics | |
| This lecture is an advanced course for understanding of the micro-fabrication for flexible electronics and 3D assembly method for constructing bioelectronic devices. The course includes introduction of human electrophysiological signals (EEG, ECG, EMG) and various examples exploiting human signals for communicating between machine and hamuns. Based on the understanding of the fundamental of the materials and devices for bioelectronics, we study the practical knowledment for developing bioelectronic devices for human-machine interfaces. | ||
| AMIE7515 | Principles and practice of spectroscopy for semiconductor materials | |
| Understand the in-depth principles of spectroscopic analysis such as photoelectron spectroscopy, x-ray absorption spectroscopy, UV visible spectroscopy, spectromicroscopy, secondary electron spectroscopy, and x-ray diffraction required for analyzing the physical properties of semiconductor materials, and learn the practical knowledge required for analyzing semiconductor materials by practicing crystal structure and electronic structure analysis of semiconductor materials based on actual data sets provided. | ||
| AMIE7516 | Advanced powder materials engineering | |
| A review of powder materials and their overall technology, including manufacturing, handlinig, post-treatment, sintering, and characterization will be presented. In addition, the latest research trends in powder processing will be discussed, as well as basic knowledge that can be applied to each students research. | ||
| AMIE7517 | Advanced metal additive manufacturing technology | |
| The course will explore cutting-edge technologies in metal 3D printing, focusing on materials, equipment, and processes. It will cover fundamental principles and examine the shapes and mechanical characteristics of structures achievable through metal 3D printing. Additionally, it will analyze the latest trends in technology, including the use of advanced alloys in the manufacturing process. | ||
| AMIE7518 | Principles and practice of first principles calculations | |
| This course covers the basic theory of density functional theory, which is a representative first principle method for studying solid state systems. In addition, it provides practical hands-on training in first-principles simulations used in real research, based on the fundamental mathematical and physical concepts covered in the curriculum. | ||
| AMIE7519 | Physics in transition metal compounds | |
| Transition metal materials exhibit intriguing phenomena that cannot be explained by the conventional band theory due to strong electron-electron interactions. In this course, the goal is to understand the interactions between electrons (electron correlations) and the resulting physical phenomena such as metal-insulator transitions and magnetism. | ||
| AMIE7520 | Electronic structure of semiconductor | |
| This course covers advanced physics to analyze electronic structure of semiconductor. The course includes research activities based on XPS and UPS. | ||
| AMIE7521 | Advanced Materials for Batteries | |
| This course aims to strengthen practical capabilities for the development of next-generation secondary batteries by providing an understanding of the composition and operational principles of various secondary batteries. It focuses on assessing the current state of key materials used in secondary batteries and addressing technological issues from a materials perspective. | ||
| AMIE7522 | Principles and practice of Flexible Printed Electronics | |
| This lecture is an advanced course for understanding the netx-generation printing process. In this course, based on the basic principles on a variety of printing processes, we study the practical methods of designing the printable materials, optimizing the processing variables, and improving the device performances. | ||
| AMIE7523 | Advanced Materials Engineering for Information and Electronics 4 | |
| This course deal show to apply the knowledge learned in the field of advanced materials from the basics to applications and learn the latest research on the use of various new materials. | ||
| AMIE7524 | Physics of Dielectric Thin Film Materials and its Applications | |
| This course provides fundamentals about dielectric materials and dielectric behavior, and introduces the application of metal-oxide-semiconductor and metal-insulator-metal structure on the actual devices. | ||
| AMIE7525 | Fundamentals of Semiconductor Materials and Devices | |
| This course will cover the principles of semiconductor materials and devices to understand the operating characteristics of various semiconductor devices, and based on this, we aim to expand our understanding of materials currently used in the semiconductor industry. | ||
| AMIE756 | Advanced Semiconductor Devices | |
| This course deals with the electronic properties of semiconductor materials and device operations of MOSFET. Device characteristics and data analysis will be intensively discussed. In addition, various semiconductor devices such as TFTs and nonvolatile memories will be introduced. | ||
| AMIE766 | Surface Engineering | |
| This course provide the surface properties, wear, contact mechanism and corrosion of engineering materials such as metals, ceramics and polymers. | ||
| AMIE770 | Advanced Materials for Energy Convergence | |
| This course introduces new materials used for power generation of various new and renewable energies, and promotes the development of new fusion materials and fusion energy fields by sharing the latest research results in the field. | ||
| AMIE771 | Advanced Physical Electronics | |
| This course covers advanced physical electronics for material scientists. The course includes advanced quantum mechanics, advanced electro magnetics, and solid-state physics for materials science. Also, advanced electronic application will be covered in this class. | ||
| AMIE772 | Discussion on Advanced Materials Engineering 1 | |
| This course provides opportunities to have discussion on the recent research and technical issues on advanced materials engineering for Information. | ||
| AMIE773 | Discussion on Advanced Materials Engineering 2 | |
| This course provides opportunities to have discussion on the recent research and technical issues on advanced materials engineering for Information. | ||
| AMIE776 | Advanced Materials Engineering for Information and Electronics II | |
| This course deal show to apply the knowledge learned in the field of advanced materials from the basics to applications and learn the latest research on the use of various new materials. | ||
| AMIE777 | Advanced Display Material | |
| This course deals the fundamental physics and materials of major flat panel display technologies including TFT-LCD and AMOLED etc. This course covers the basic sciences and making-process behind each display technology. | ||
| AMIE789 | Smart Life Plus Materials | |
| This course is to understand the latest research trends on the Smart Life+ materials. (Smart, Wellness-Life, Sustainable-Life, and Safety-Life Materials) | ||
| AMIE791 | Frontier Colloidal Materials Processing | |
| The novel chemical methodologies regarding functional nano-materials and unconventional colloidal processing technologies are suggested with the theoretical investigation on a formation of highly functioning thin/thick inorganic films | ||
| AMIE795 | Frontier materials colloquium | |
| This course, Frontier materials Colloquium, is to understand the latest research on the emerging materials. | ||
| AMIE796 | International Research1 | |
| This course provides an opportunity for an international research. | ||
| AMIE797 | International Research2 | |
| This course provides an opportunity for an international research. | ||
| AMIE798 | Understanding of Intellectual Property Rights (Patent) | |
| This course is on the overall theory and practice related to intellectual property rights, and deals in depth with the basic theory of patent law and the practice of patent application, registration, and management. | ||
| AMIE720 | Material Science | |
| Basic understanding of three major materials(metals, ceramics, polymers) is covered through the study of fundamental structures, nomenclature, physical properties and characterization, thermodynamic and kinetic phase equilibrium. | ||
| AMIE7412 | Polymer Materials | |
| This course deals with a basic knowledge of polymer structure and property relationship, fundamental concept of polymer synthesis and characterization methods, and mechanical properties. | ||
| AMIE7413 | Advancede Material Mechanics 2 | |
| This course deal show to apply the knowledge learned in the field of advanced materials from the basics to applications and learn the latest research on the use of various new materials. | ||
| AMIE743 | Advanced Energy Materials Engineering | |
| This course will learn about energy to rage devices such as solar cells, rechargeable batteries and learn about the materials used to make these devices. Applications field of these devices and the trend of technological development will be discussed. | ||
| AMIE7512 | Advanced Display Material 1 | |
| This course deals the fundamental physics and materials of major flat panel display technologies including TFT-LCD and AMOLED etc. This course covers the basic sciences and making-process behind each display technology. | ||
| AMIE766 | Surface Engineering | |
| This course provide the surface properties, wear, contact mechanism and corrosion of engineering materials such as metals, ceramics and polymers. | ||
| AMIE770 | Advanced Materials for Energy Convergence | |
| This course introduces new materials used for power generation of various new and renewable energies, and promotes the development of new fusion materials and fusion energy fields by sharing the latest research results in the field. | ||
| AMIE771 | Advanced Physical Electronics | |
| This course covers advanced physical electronics for material scientists. The course includes advanced quantum mechanics, advanced electro magnetics, and solid-state physics for materials science. Also, advanced electronic application will be covered in this class. | ||
| AMIE772 | Discussion on Advanced Materials Engineering 1 | |
| This course provides opportunities to have discussion on the recent research and technical issues on advanced materials engineering for Information. | ||
| AMIE773 | Discussion on Advanced Materials Engineering 2 | |
| This course provides opportunities to have discussion on the recent research and technical issues on advanced materials engineering for Information. | ||
| AMIE789 | Smart Life Plus Materials | |
| This course is to understand the latest research trends on the Smart Life+ materials. (Smart, Wellness-Life, Sustainable-Life, and Safety-Life Materials) | ||
| AMIE790 | Forontier Ectronic Materials | |
| This course focuses on the relationship between the nano-structure of materials and their electrical properties. And, the selected recent research results about improving the electrical property by modulating the nano-structure will be introduced. | ||
| AMIE791 | Frontier Colloidal Materials Processing | |
| The novel chemical methodologies regarding functional nano-materials and unconventional colloidal processing technologies are suggested with the theoretical investigation on a formation of highly functioning thin/thick inorganic films | ||
| AMIE792 | Convergence Semiconductor processes | |
| This course focuses on the operation mechanism of various convergence semiconductor devices and processes for manufacturing. And, the recent research progress in the development of next-generation semiconductor devices will be introduced. | ||
| AMIE793 | Convergence Electrochemistry | |
| This course will provide introduction of electrochemistry and fundamental understanding on electrochemical reactions take place in electrochemical systems and various related theories. | ||
| AMIE794 | Advanced Nano Convergence | |
| This course provides concept and theory of advanced nano convergence for material science. Each students will perform individual research project through the class. | ||
| AMIE795 | Frontier materials colloquium | |
| This course, Frontier materials Colloquium, is to understand the latest research on the emerging materials. | ||
| AMIE796 | International Research1 | |
| This course provides an opportunity for an international research. | ||
| AMIE797 | International Research2 | |
| This course provides an opportunity for an international research. | ||
| ME705 | Advanced Composite Materials 1 | |
| In this lecture, we focuses on the macroscopic dynamics of fiber-reinforced composites. In addition, lectures on strength properties, fracture characteristics, and fatigue characteristics of polymer matrix composites, metal matrix composites, and metal laminate composites, and mechanical behavior under various environmental conditions are also discussed. | ||
| ME7110 | Senor Engineering | |
| The course helps students understand the sensor system design. The course provides general introduction to sensors, their principles and applications. The course also provides knowledge about data obtained from a single or multiple sensors and their applications. | ||
| ME7115 | Biomaterials | |
| This course deals with the concepts and characteristics of bioengineering materials. it also lectures on manufacturing method and mechanical properties of biocompatible materials, as well as the compounding of this materials. | ||
| ME7116 | System Design Engineering | |
| This course deals simulation and analysis of dynamic system, stability analysis, design of control system, state variable analysis and nonlinear control. Using Matlab as a CAE tool, system design will be realized to a target system. | ||
| ME7117 | Human Interface Engineering | |
| This course provides the student with a basic knowledge of human interface design principles and the nature of human interaction with their physical work environment. The course introduces cognitive engineering, ergonomics, system design, and the nature of human performance in the workplace. | ||
| ME7118 | Introduction to Startup | |
| The course aims to provide basic knowledge and various contents to startup technology-based enterpreneurship. This course comprehensively deals with product planning/design through market analysis and customer analysis, business model analysis, and future growth strategy search, which are necessary elements for prospective entrepreneurs to take the first step in starting a business. This course is a discussion-based / project-based class. It includes seminars to introduce successful cases of technology-based startups and explain market trends. Research reports and IR reports will be assigned. | ||
| ME7119 | Startup Practice | |
| The course aims to mentor the actual start-up process for prospective or early start-up students. In addition, it provides opportunities for industry mentor seminars and mentoring. | ||
| ME7130 | Special Topics in Mechanical Engineering 3 | |
| This course introduce various topics in emerging research areas of mechanical engineering. | ||
| ME7131 | Special Topics in Mechanical Engineering 4 | |
| This course introduce various topics in emerging research areas of mechanical engineering. | ||
| ME776 | Mobile robotics | |
| The objective of this course is to provide the basics required to develop autonomous mobile robots. Both hardware (energy, locomotion, sensors, embedded electronics, system integration) and software (real-time programming, signal processing, control theory, localization, trajectory planning, high-level control) aspects will be tackled. Theory will be deepened by exercises and application to real robots. | ||
| ME783 | Human Modeling | |
| Human body anatomy and physiology, biomechanical structure, human motion analysis, human shape modeling, biomaterial properties, human kinematics, human dynamics, infinite structure mechanics, CAD / CAE analysis are studied. Then, students study the technique of modeling a part of human body from medical image. | ||
| ME791 | Individual Study 1 | |
| Prepare for the degree acquisition and carry out the experiment by synthesizing the theoretical and the research results related to the major that help the research project. | ||
| ME792 | Individual studies 2 | |
| Prepare for the degree acquisition and carry out the experiment by synthesizing the theoretical and the research results related to the major that help the research project. | ||
| ME799 | Special Topics in Mechanical Engineering | |
| Identify the legal and institutional framework for defining and practicing automotive safety, familiarize with the relevant engineering test rules and procedures, and learn about verification and sanctions systems and practices. | ||
| ME800 | Special Topics in Mechanical Engineering 2 | |
| Introduction to Exergy concepts. Calculating exergy of various energy resources. Exergy optimized design. Low exergy technologies. Strategies for designing exergy systems in buildings. Applications of exergy in heating and cooling systems. Exergy and economy. Exergy and environment. | ||
| ME891 | Individual Study 1 | |
| Prepare for a degree by honoring the results of academic studies related to the major. | ||
| ME892 | ndividual studies 2 | |
| Prepare for a degree by honoring the results of academic studies related to the major. | ||
| PHYS7012 | Solid State Physics 1 | |
| This course discusses Bravais lattices and crystal structure, measurement of crystal structure by x-ray and neutron scattering, photon and lattice vibration, and electron band theory. | ||
| PHYS7025 | Nano Condensed Matter physics | |
| This course deals with the optical properties of various nano-sized structures, charge transport phenomena, and electromagnetic reactions. It also introduces experimental methods for fabricating and processing nanodevices and helps them conduct related research. | ||
| PHYS7042 | Magnetism and Magnetic Materials I | |
| The course provides an introduction to the magnetism research, including basic classical and quantum physics on magnetism, the origin of magnetism phenomena, and basic theories on the interactions of spins. | ||
| PHYS7045 | Semiconductor Physics | |
| Students will learn basic information about the atomic structure, band structure, fabrication method and physical properties of semiconductors, basic knowledge of pn junction, Schottky junction, MOS, MOSFET, field effect transistor and research related to these semiconductors. | ||
| PHYS7053 | Optoelectronic Devices | |
| Students will learn the principles and applications of various devices that convert electrical signals into light or light into electrical signals based on semiconductor physics. | ||
| PHYS7112 | Electronic Structure of Solids | |
| This course is the fundamental physics to understand the electronic structure of solids which is critical to understand physical properties of solids. This course deals with the electronic transport properties and quantum physics on metal, semiconductor, and insulators. | ||
| PHYS7114 | Dielectrics Physics | |
| Students will learn basic principles of dielectric materials based on the electricity & magnetism and quantum mechanics and acquire basic knowledge about physical properties and phase transition of dielectric materials, physical properties and applications of dielectric materials. | ||
| PHYS7118 | Surface and Interface Physics | |
| This course deals with the physical and chemical phenomena that occur at the surface and interface of matter, and the mechanisms of these phenomena on an atomic or molecular scale. In addition, students will learn various surface and interface analysis methods such as spectroscopy and microscopy techniques to measure the properties of these surfaces and interfaces. |