Course Outline

1 1학기 [XAA1358] CALCULUS(1)

As a basic mathematics course for students in natural science college we study differentiation and integration of one variable real-valued functions, emphasizing basic concepts and applications. The topics are limit functions, continuity, derivatives, polar coordination and proper integrals.
1 1학기 [XAA1359] CALCULUS(2)

As a contiunation of "Caculus (1)" we study properties of partial derivatives, multiple integrals, series and matrices.
1 1학기 [0002402] University chemistry

Introduction to the fundamental concepts of chemistry designed for students in the natural sciences.
1 1학기 [0002399] Physics(1)

A course to acquire basic idea of physics including measurement of quantity, work and energy, dynamics, thermodynamics.
1 1학기 [0002401] Physics(2)

A course to acquire general ideas of physics including electricity, magnetism, atom and nuclear physics, elementary particles and principle of relativity.
1 2학기 [EH06049] INTRODUCTION TO MATERIALS ENGINEERING

Understand the importance of the definition and development of new materials that underpin the development of modern engineering and industrial technology, and explain the basic theories of materials science that are necessary for understanding advanced materials. This course deals with the principles, manufacturing methods and applications of advanced new materials.
1 2학기 [XAA1359] CALCULUS(2)

As a contiunation of "Caculus (1)" we study properties of partial derivatives, multiple integrals, series and matrices.
1 2학기 [0002401] Physics(2)

A course to acquire general ideas of physics including electricity, magnetism, atom and nuclear physics, elementary particles and principle of relativity.
2 1학기 [0009478] Basic Electrochemistry

This lecture seeks to establish the scientific underpinnings for technologies used in diverse electrochemical energy storage systems and that make efficient use of energy and electrochemical processing of materials in an environmentally sound manner. Specific topics include electrochemical energy storage systems such as lithium secondary batteries, supercapacitors. Related to these are physical chemistry and electrochemistry of metal oxides, and nanoelectrochemistry
2 1학기 [EH06066] MODERN PHYSICS

This course is to understand the general contents of modern physics since the 1900s and to study the physical knowledge related to material engineering.
2 1학기 [EQA6068] INTRODUCTION TO METALLURGY

Understand the basic principles of metallurgy and heattreatment of metals like iron, aluminum and copper.
2 1학기 [0011497] Introduction to Energy Materials and Engineering

This course examines the current status of conventional fossil fuels and provides an exploration of sustainable and clean energy sources as potential replacements. Additionally, it offers an opportunity to delve into the fundamental principles and engineering concepts necessary for the development of renewable energy. It provides deep insights into practical technologies within the energy sector, including solar cells, fuel cells, hydrogen energy, bioenergy, CO2 capture and conversion, secondary batteries, artificial photosynthesis. Furthermore, students will learn about the characteristics of materials used in various energy-related fields.
2 1학기 [0011498] Introduction to Electronic Materials Engineering

This course deals with the basic concepts of the materials and engineering principles for semiconductor devices and systems. In addition, the topics covered by this subject will be the properties of semiconductor materials, dielectrics, and metals and the operating principles of semiconductor devices such as transistors.
2 2학기 [0000018] Advanced Materials Science Lab(1)

Introduces experimental chemistry for students who are majoring in materials science & engineering. Principles and applications of chemical laboratory techniques, including preparation and analysis of chemical materials, measurement of pH, gas and liquid chromatography, visible-ultraviolet spectrophotometry, infrared spectroscopy, kinetics, data analysis, and elementary synthesis.
2 2학기 [EQA6046] CRYSTAL STRUCTURE OF MATERIALS

Atomic structure and electronic configuration are understood. Atomic arrangement and crystal structure are discussed.
2 2학기 [EQA6009] STRUCTURE AND DEFECTS OF THE SOLIDS

Understand the generation of defects in solid crystalline materials and application of them in the real field
2 2학기 [EQA6105] SEMICONDUCTOR PHYSICS

Basic concepts of electron physics will be delivered to understand the engineering application of electronic materials. Especially, lectures will be concentrated on electrical property of semiconductor. Goal of this course is to obtain the general understanding of electron behavior in atom and solid. Electron as particle, charge, science and engineering application will be lectured through the course
2 2학기 [0011499] Energy Devices and Processing

This course covers the fundamental concepts and principles of manufacturing processes for energy devices. Building upon a diverse range of electromagnetic theories and foundational knowledge of electrical devices, students will delve into the configuration and operational characteristics of energy conversion devices. Furthermore, the course explores the structure, operating principles, manufacturing processes, and energy conversion components such as solar cell, fuel cell, semiconductors, and other energy conversion devices. The goal is to equip students with the capability to efficiently develop and assess reliable energy components in the emerging field of next-generation energy technology.
2 2학기 [ED06089] MECHANICS OF METERIALS

"Stresses, strains, stress-strain relationship, and member forces-stresses relations are studied. The buckling equation are deduced from flexure behavior and thereof the buckling of column with boundary conditions are also studied."
2 2학기 [EQA6154] MICROELECTRONIC PACKAGING

This course is open for the students to learn about the design of microsystems packaging. It is lectured in this course how to assembly device chips to the 1st level package.
2 2학기 [0010449] Mathematics for Materials Science and Engineering

This course covers various mathematical theories such as differential equations, linear algebra, Fourier analysis, and complex analysis, and their applications. The course will help students understand the basic principles and applications of materials science and engineering.
2 2학기 [EQA6057] PHYSICAL CHEMISTRY FOR MATERIALS SCIENCE(1)

This course is open for the fundamental study about chemical reaction or physical phenomenon for the development of advanced materials. Particularly, this subject focuses on the thermodynamic analysis of phase diagrams.
3 1학기 [EQA6103] ELECTRICAL PROPERTIES OF THE MATERIALS

To understand the electrical properties of materials, it is essentials to study the electron theory based on the quantum mechanical approach. This course is designed to give the interpretation of electrical conduction of materials with band theory.
3 1학기 [0010912] Numerical analysis for materials science

Various mathematical methods used for numerical analysis are introduced and the ways to implement them using a computer are demonstrated. Through this, students learn how to solve various mathematical problems related to material science and engineering by using computer calculations.
3 1학기 [0011907] Thin Film Technology

Thin Film Engineering focuses on the fabrication, properties, and applications of thin films ranging from a few nanometers to micrometers in thickness. This course covers deposition techniques, growth mechanisms, and the physical, chemical, and electrical properties of thin films. It also explores how thin films are used in various electronic devices such as semiconductors, displays, solar cells, and sensors.
3 1학기 [0012372] Semiconductor Device Nanofabrication 1

This class is designed for the 3rd year undergraduate students to understand the modern integrated circuit fabrication, in other words, the manufacturing of Si device. In this class, we will study about the development history of the modern Si device and the background and fundamentals of each unit process, such as wafer preparation, diusion, doping, deposition, lithography, etching, and interconnect. This is the first part of a 1-year-course and the second part will be in the Fall Semester with the name of 'Semiconductor Device Nanofabrication 2.'
3 1학기 [EQA6023] POWDER METALLURGY

We have lecture on powder fabrication, property and forming technology widely, the basic of Powder metallurgy. It is exlapined application technology of powder metallurgy and cases of abroad and domestic study. We have explain introduction of powder metallurgy, metal powder forming and sintering, Mechanical Material, tool material, magnetic material etc.
3 1학기 [EQA6058] PHYSICAL CHEMISTRY FOR MATERIALS SCIENCE(2)

The behaviors of materials and the equilibrium state of system with the operational independent variables, pressure, temperature and etc. applied to the system will be introduced. The equilibrium of chemical reactions contained gas phases and condensed phases can be determined thermodynamically with the basic theory, the first and the second law of thermodynamics. The students are introduced the binary phase diagram, with the concepts of free energy and activity, to understand the equilibrium phases for condensed system.
3 1학기 [0011908] Materials Electromagnetics

Materials Electromagnetics is the study of the principles and applications of materials with electromagnetic properties. This course covers the conductivity, dielectric, magnetic, and optical properties of materials based on fundamental electromagnetic field theory. It also examines applications of the materials in real-life technologies, such as electronic devices and memory storage.
3 1학기 [0011909] Application of Electrochemistry

This course aims to cover the fundamental principles and applications of electrochemistry. Students will learn essential theories such as equilibrium, ion conduction, reaction kinetics, and mass transfer to understand electrocehmical reaction. In addtion, cyclic voltammetry and impedance spectroscopy, etc will be covered to understand the principles of electrochemical energy devices. Practical knowledge of electrochemical performance evaluation methods will also be acquired. By the end of the course, students will have a comprehensive understanding of the theory, experimental techniques, and diverse applications of electrochemistry.
3 1학기 [0011910] Advanced Catalyst Engineering

This course focuses on the role, principles, design, and applications of catalysts in chemical reactions. Students will learn fundamental concepts of catalysis, reaction mechanisms, catalyst activity and selectivity. The course also provides in-depth knowledge of heterogeneous and homogeneous catalysts, as well as various nano-catalysts, which play crucial roles in industrial and environmental applications. Based on this course, students will develop skills in catalyst development and optimization, while exploring its potential uses in diverse fields such as energy, environment, and chemical processes.
3 2학기 [0000019] Advanced Materials Science Lab(2)

We have examined fabricated bulk metals of meta-stable state. We have skilled process and how to use equipment to product of thin film and inspected of micro-structure, character.
3 2학기 [0009475] Materials Thermodynamics

The topics including the importance and applicability of thermodynamics in Materials Science and Engineering, fundamental concepts and laws of classical thermodynamics, thermodynamic properties and relationships, basic statistical thermodynamics, essentials of free energy, equilibrium/non-equilibrium state and stability of single component materials, Phase diagrams of single component systems, thermodynamic interpretations of phase diagrams, and construction techniques of phase diagrams will be deeply treated in this course
3 2학기 [0012377] Semiconductor Device Nanofabrication 2

This class is designed for the 3rd year undergraduate students to understand the modern integrated circuit fabrication, in other words, the manufacturing of Si device. In this class, we will study about the development history of the modern Si device and the background and fundamentals of each unit process, such as wafer preparation, diusion, doping, deposition, lithography, etching, and interconnect. This is the second part of a 1-year-course and all students who want to take this class need to complete the first part with the name of 'Semiconductor Device Nanofabrication 1.'
3 2학기 [EQA6116] SEMICONDUCTOR DIVICE ENGINEERING

Operation principle and application characteristics of semiconductor devices will be delivered to understand the engineering applications of electronic materials. Goal of this course is to acquire the knowledge of application of engineering device based on the properties of semiconductor. Function and performance of each semiconductor devices will be lectured through the overall course.
3 2학기 [EQA6109] POWDER ENGINEERING

We have lecture on powder fabrication, property and forming technology widely, the basic of powder metallurgy. It is exlapined application technology of powder metallurgy and cases of abroad and domestic study. We have explain introduction of powder metallurgy, metal powder forming and sintering, Mechanical Material, tool material, magnetic material etc.
3 2학기 [0001236] Secondary Battery Engineering

Understanding of the principle of lithium secondary battery as a major in energy and chemical engineering, understanding of the technology of lithium secondary battery in progress and systematic discussion on approach and research method of lithium secondary battery through electrochemical and structural analysis method . This course also covers the structure and properties of core materials of lithium secondary batteries and their characteristics.
3 2학기 [0011911] Electronic Ceramics

Electronic ceramics is the study of ceramic materials with electrical, magnetic, and thermal properties. This course covers the structure, bonding, microstructure, and electronic, dielectric, and piezoelectric properties of ceramics. It also explores how electronic ceramics are applied in various electronic devices such as semiconductors, sensors, and energy storage devices.
4 1학기 [EQA6142] PHASE TRANSFORMATION

The principle of the formation of phase diagrams for one component system and two components system will be studied with the basis of the variation of solution free energy. The variation of microstructures in solid at the equilibrium cooling conditions will be discussed.
4 1학기 [0012373] Seminar in Materials Science and Engineering

This course introduces the latest research trends and diverse research topics in the field of materials science and engineering. Through expert lectures and case presentations, students will gain insights into current developments and industrial applications of advanced materials. This course helps broaden academic perspectives and supports students in exploring their own research themes.
4 1학기 [0012374] Semiconductor Process Laboratory

This course provides hands-on experience with the key fabrication steps required for semiconductor devices. Students will practice core techniques such as photolithography, etching, deposition, and diffusion using actual process equipment. Through these experiments, they will gain a practical understanding of semiconductor manufacturing principles and develop essential technical skills.
4 1학기 [0012375] Fuel cell materials and engineering

The class will explore society's present needs and future energy demands, examine conventional energy sources and systems, and then focus on alternate energy devices and renewable energy sources, especially on fuel cells and hydrogen resources. This course aims at introducing students to the fundamental aspects of fuel cell components, systems and main characterization methods. Students will learn the basic principles of electrochemical energy conversion systems while being exposed to relevant topics in materials science.
4 1학기 [EQA6108] THE MAGNETIC AND OPTICAL PROPERTIES OF MATERIALS

This course is designed to give the fundamental understanding of magnetic and optical properties of materials. In addition, students gain familiarity with quantum mechanical tools for materials characterization, including free electron theory, band theory. They study the several applications related with these properties.
4 1학기 [0012376] Electrochemical Energy Device Characterization Lab

This course provides hands-on training in the experimental evaluation of electrochemical energy conversion and storage devices. Students will conduct electrochemical measurements such as cyclic voltammetry, impedance spectroscopy, and currentvoltage characterization to gain practical insights into device operation and performance. This course aims to quide students in understanding how material properties, electrode structures, and electrolyte characteristics affect overall device efficiency and stability.
4 1학기 [0010451] Computational Materials Science

In this course, several material research methods based on numerical analysis using a computer are introduced. Students learn basic theories about atomic-level simulation methods such as molecular dynamics and first-principle calculations, and through examples, students can understand importance of simulation in materials research.
4 2학기 [0004222] CHARACTERIZATION OF MATERIALS

In this course, the instrumental analysis for the component and microstructure of materials will be introduced, and the measurement methods of the materials properties(thermal, mechanical, electro-magnetic, optical property, etc.) will also be discussed. This course aims at cultivating the characterization & analysis for the various materials.
4 2학기 [0012378] Light energy conversion and solar cells

This course introduces solar cells as a core technology of renewable energy, covering the subject from fundamental principles to advanced applications. The course is divided into three parts: i) Fundamentals of Solar Cells semiconductor properties, pn junctions, and operating principles; ii) Solar Cell Systems various device architectures and an introduction to tandem systems; iii) Future Prospects performance enhancement strategies and emerging materials such as halide perovskites.
4 2학기 [EQA6120] MATERIALS FOR INFORMATION STORAGE

The large amounts of data and information storage devices is essentials to develop an information society in the modern era. This course is designed to give the fundamental understanding of information storage and introduction of recent devices related to the magnetic recording.