纳米材料工学专业


ACADEMICS
纳米材料工学专业
Home > 学院 / 研究生院 > 学院 > 纳米材料工学专业
  • PRINT
  • EXPAND
  • DEFAULT
  • REDUCE


纳米材料工学专业

院系介绍

1) 强化基础工程学教育: 以英语、计算机、工程学设计为主的素养教育
2) 超小集成元件新材料工程技术: 材料合成技术、 积层技术、薄膜加工技术
- 集成电子元件、半导体、功能性未来新材料元件
3) 元件材料设计技术 : 基础回路理论、 电子气场模拟试验装置、电子元件技术、未来材料技术、生物体材料

教授介绍

宋昌彬
Professor
Major in Nano-Material Science & Engineering
Properties and Fabrication of the rear earths permanent magnet, Properties and Production of the W-M(M=Ni,Fe,Cu,Ag,Sn,Zn) system, High Density Composites, Recycling process of rare metals (W,Ta,Mo,Nb,Ti...)
+82-41-521-9374
cbsong@kongju.ac.kr
李基先
Professor
Functional Materials Synthesis and Applications, Hydrophilic and Low-emissivity Nano-sized Thin Films, High Temperature Oxidation Resistant FeCrAl (La), Nano-structured FeSiAl Powder Synthesis
+82-41-521-9375
kslee@kongju.ac.kr
金南澈
Professor
Dielectric, Ferroelectric and Piezoelectric Materials, Mobile Passive Components, New Materials for Fuel cell and Solar cell
+82-41-521-9376
nckim@kongju.ac.kr
鄭雲鎭
Professor
Glass materials for photonic, electronic and display applications including quantum dot embodied glass ceramic materials (1) Glasses for displays: Sealing materials, Phosphors (2) Glasses for photonics: Gain medium for optical amplifier and lasers
(3) Glasses for electronics: Conductive glass materials
(4) Glasses for Solar cells: Active sensitizing materials for solar cells and sealing materials
+82-41-521-9377
wjin@kongju.ac.kr
姜龍默
Professor
Materials for energy storage and conversion
(1) Preparation and analysis of electrode materials for Li secondary batteries
. Prepared materials
i) Nano or Micro powder form
- Cathode materials: LiCoO2, LiMn2O4, LiNixMn1-xO2, LiCoO2 coated LiMn2O4, LiMn2O4 coated LiCoOS, LiFePO4
- Anode materials: Li3-xCoxN, Transition metal oxides (CoO, Co3O4, NiO, MnO), Sn-Co alloy, Sn(Ge2S7)0.5(MgO)0.5, Si/C composite, Si-Ni/C composite, Si-Cu/C composite
ii) Nano-wire or Nano-tube form
- Co3O4, SiOx, SnO2 (Preparation method: Self-catalysis thermal evaporation)
. Main analysis methods for prepared materials
Ab initio calculation (Software: VASP, CASTEP, Wien2k, etc.), Rietveld Refinement, Impedance fitting using the equivalent circuit
(2) Preparation of materials for hydrogen storage and evolution
. Prepared materials
i) Multi-wall CNT, Porous carbon
ii) Catalyst materials for hydrogen evolution using NaBH4 solution
+82-41-521-9378
dake1234@kongju.ac.kr
宋休燮
Professor
Solid Oxide Fuel Cell, Nano Powder Processing, Powder Forming Processing, Reaction Sintering
+82-41-521-9379
hssong@kongju.ac.kr


教科课程

Spring Semester

Calculus and Exercise (3 Credits)
General Chemistry Ⅰ (2 Credits)
General Chemistry Ⅰ (1 Credit)
General Physics and Lab Ⅰ (3 Credits)
Introduction of Computer Engineering (3 Credits)
Introduction to Materials Engineering Ⅰ (3 Credits)
Modern Physics (3 Credits)
Materials Physical Chemistry (3 Credits)
Mechanical Properties of Materials (3 Credits)
Introduction to Engineering Materials Design (3 Credits)
Materials Common Lab.Ⅰ (3 Credits)
Metallic Materials II (3 Credits)
Materials Electric Chemistry (3 Credits)
Ceramic Processing (3 Credits)
Electronic-Magnetic Properties of Materials (3 Credits)
Phase Transformation in Materials (3 Credits)
X-ray and Crystallography (3 Credits)
Amorphous Materials (3 Credits)
Semiconductor Processing (3 Credits)
Nano-engineering and Materials (3 Credits)
Magnetic Materials (3 Credits)
Creative Materials Design (3 Credits)

Fall Semester

Engineering Mathematics Ⅰ (3 Credits)
General Chemistry Ⅱ (2 Credits)
General Chemistry Ⅱ (1 Credit)
General Physics and Lab Ⅱ (3 Credits)
Materials Thermodynamics (3 Credits)
Microstructure of Materials (3 Credits)
Introduction to Materials Engineering Ⅱ (3 Credits)
Metallic Materials Ⅰ (3 Credits)
Ceramic Materials (3 Credits)
Analysis of Mechanical Testing Machines (3 Credits)
Materials Common Lab.Ⅱ (3 Credits)
Thin Film Technology and Properties (3 Credits)
Ceramic Chemistry (3 Credits)
Powder Metallurgy (3 Credits)
Introduction of Electronic Devices (3 Credits)
Electronic Ceramic Materials (3 Credits)
Display Engineering (3 Credits)
Magnetic Materials Processing (3 Credits)
Energy and Environment Materials (3 Credits)
Nano-Composite Materials (3 Credits)
Graduation Research Thesis (3 Credits)