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Course

Required Credits:

Seminar I (1)

Seminar II (1)

Seminar III (1)

Seminar IV (1)

 

Elective Credits (General Materials):

X-ray diffraction (3)

Metallurgical Thermodynamics (3)

Physical Metallurgy (3)*

Phase Transformation in Solids (3)

Electron Microscopy (3)

Dislocation Theory (3)

Engineering Composites (3)

Deformation and Fracture of Materials (3)

Mineralogy and Polarized Microscopy (3)

Phase Transformation of Ceramics (3)

Multicomponent Phase Diagrams (3)

Fatigue and Fracture (3)

Welding Metallurgy (3)

Nanocrystalline and Amorphous Bulk Inorganic Materials and Composites (3)

Texture and Anisotropy of Materials (3)

Ceramic Materials (3)

Steel Processing (3)

Powder Metallurgy (3)*

Advanced Electron Microscopy (3)

Solid State Ionics (3)

X-ray and Electronic Energy Spectroscopy (3)

Advanced X-ray Diffraction (3)

Thermoelectric Materials (3)*

Independent Studies (3)

 

Elective Credits (Polymers):

Synthesis and Reactions of Polymers (3)

Polymer Science (3)

Polymers in Optoelectronic Applications (3)

Physical Properties of Polymers (I) (3)

Physical Properties of Polymers (II) (3)

Sol-Gel Science (I) (3)

Sol-Gel Science (II) (3)

Principles of Polymer Rheology and Processing (3)

Polymer/Clay Nanocomposites (3)

Soft Materials (3)

Polymer Nanomaterials (3)

Polymer Characterization (3)

Electron Microscopy for Soft Materials (3)

Methods of Small Angle Scattering in Soft Materials (3)

Polymer Spectroscopy (3)

Seminar in Basic Chemical Engineering and Polymer Industries (2)

Case Studies for Polymer Materials in Applications of Industry (3)

 

Elective Credits (Optoelectronic Materials and Science):

Condensed Matter Theory (3)

Electronic Properties and Structures in Solids (3)*

Physics of Semiconductors (3)

Semiconductor Device (3)

Semiconductor Packing (3)

Characterization of Semiconductor Materials (3)

IC Fabrication Principles and Simulation (3)

Memory Devices and their Fabrication Technologies (3)

Electronic Ceramics (3)

Optical Properties of Solids (3)*

Electronic Thin Film Science (3)

Thin Film Deposition Technology (3)

Thin-Film Solar Cells (3)

Special Topics on Solar Cells (3)

Growth of Optoelectronic Crystal (3)*

Spectroscopic Methods in Materials Characterization (3)

Physics Optics (3)*

Fourier Optics (3)*

Wave Optics (3)*

Introduction to Nonlinear Optics (3)

Crystal Photonics (3)*

Optical Design (3)

Selected Topics of Optoelectronic Science (3)

 

Course (credit number)

* Lecture given in English

Department of Materials and Optoelectronic Science
Curricula for Master and Ph. D. students

Required credits for undergraduate students

SEMINAR I (1); SEMINAR II (1); SEMINAR III (1); SEMINAR IV (1);

Elective professional credits

General Materials

DISLOCATION THEORY (3)

POWDER METALLURGY (3)

ENGINEERING COMPOSITES (3)

DEFORMATION AND FRACTURE OF MATERIALS (3)

PHASE TRANSFORMATION IN SOLIDS (3)

MINERALOGY AND PLOARIZED MICROSCOPY (3)

PHASE TRANSFORMATION OF CERAMICS (3)

METALLURGICAL THERMODYNAMICS (3)

MULTICOMPONENT PHASE DIAGRAM (3)

ELECTRON MICROSCOPY (3)

PHYSICAL METALLURGY (3)

FATIGUE AND FRACTURE (3)

WELDING METALLURGY (3)

ADVANCED FATIGUE & FRACTURE ANALYSIS (3)

NANOCRYSTALLINE AND AMORPHOUS BULK INORGANIC MATERIALS AND COMPOSITES (3)

TEXTURE AND ANISOTROPY OF MATERIALS (3)

CERAMIC MATERIALS (3)

STEEL PROCESSING (3)

ADVANCED ELECTRON MICROSCOPY (3)

X-RAY DIFFRACTION (3)

SOLID STATE IONICS (3)

ADVANCED X-RAY DIFFRACTION (3)

THERMOELECTRIC MATERIALS (3)

Polymers

SYNTHESIS AND REACTIONS OF POLYMERS (3)

POLYMER SCIENCE (3)

POLYMERS IN OPTOELECTRONIC APPLICATIONS (3)

PHYSICAL PROPERTIES OF POLYMERS (I) (3)

PHYSICAL PROPERTIES OF POLYMERS (II) (3)

SOL-GEL SCIENCE (I) (3)

SOL-GEL SCIENCE (II) (3)

PRINCIPLES OF POLYMER RHEOLOGY AND PROCESSING (3)

POLYMER/CLAY NANOCOMPOSITES (3)

SOFT MATERIALS (3)

POLYMER NANOMATERIALS (3)

POLYMER CHARACTERIZATION (3)

ELECTRON MICROSCOPY FOR SOFT MATERIALS (3)

APPLICATIONS OF SMALL ANGLE X-RAY AND NEUTRON SCATTERING IN SOFT MATERIALS (3)

POLYMER SPECTROSCOPY(3)

SEMINAR IN BASIC CHEMICAL ENGINEERING AND POLYMER INDUSTRIES (I) (2)

SEMINAR IN BASIC CHEMICAL ENGINEERING AND POLYMER INDUSTRIES () (2)

CASE STUDIES FOR POLYMER MATERIALS IN APPLICATIONS OF INDUSTRY (3)

Optoelectronic Materials

SEMICONDUCTOR DEVICE (3)

SEMICONDUCTOR PACKAGING (3)

ELECTRONIC CERAMICS (3)

ELECTRONIC THIN FILM SCIENCE (3)

CHARACTERIZATION OF SEMICONDUCTOR MATERIALS (3)

THIN FILM SOLAR CELLS (3)

THIN FILM DEPOSITION TECHNOLOGY (3)

SPECIAL TOPICS ON SOLAR CELLS (3)

X-RAY AND ELECTRONIC ENERGY SPECTROSCOPY (3)

PRINCIPLES OF SEMICONDUCTOR MANUFACTURING TECHNOLOGY (3)

Optoelectronic Science

GROWTH OF OPTOELECTRONIC CRYSTAL (3)

OPTICAL PROPERTIES OF SOLIDS (3)

SINGLE MOLECULE FLUORESCENCE DETECTION AND SPECTROSCOPY (3)

SPECTROSCOPIC METHODS IN MATERIALS CHARACTERIZATION (3)

FOURIER OPTICS (3)

ELECTRONIC PROPERTIES AND STRUCTURES IN SOLIDS (3)

CONDENSED MATTER THEORY (3)

PHYSICS OF SEMICONDUCTOR (3)

PHYSICAL OPTICS(3)

WAVE OPTICS (3)

CRYSTAL PHOTONICS (3)

PRINCIPLES AND TECHNOLOGIES OF FLAT PANEL DISPLAY (3)

MEMORY DEVICES AND THEIR FABRICATION TECHNOLOGIES (3)

SELECTED TOPICS OF OPTOELECTRONIC SCIENCE (3)

Research, Writing and Engineering Proficiency

INDEPENDENT STUDIES(I) (3)

INDEPENDENT STUDIES(II) (3)

INDEPENDENT STUDIES(III) (3)

INDEPENDENT STUDIES(IV) (3)