Educational purpose
The educational purpose of the Department of New Materials Engineering is to foster creative and globally competitive individuals equipped with knowledge in the field of future-oriented new materials that coincide with the convergence/complex paradigm of green growth and technology. Furthermore, this department endeavors to foster outstanding researchers who can lead the development of innovative technology and improve the technology of material/component companies that can act as the supply base for global advanced materials. This department cultivates comprehensive, macroscopic research capabilities for corporate demands by providing curriculum, projects, and company-related activities centered on R&D of advanced core materials, such as energy, semiconductor, display, automobile and shipbuilding, which are the major fields of future industries.
Curriculum
Major | Program | Semester | Mandatory/Optional | Course | Credit/Hours |
---|---|---|---|---|---|
Advanced Materials Engineering | Advanced Material Analysis | 3/3 | |||
Nano-Material Engineering | 3/3 | ||||
Material Diffusion Theory | 3/3 | ||||
Phase Transformation | 3/3 | ||||
Solid State Physics | 3/3 | ||||
Alloy Physics | 3/3 | ||||
Advanced Display | 3/3 | ||||
Advanced Energy Materials | 3/3 | ||||
Superconductive Materials & Application | 3/3 | ||||
Electric & Electronic Material | 3/3 | ||||
Advanced Application of New Materials | 3/3 | ||||
Advanced Material Structure | 3/3 | ||||
Material Thermodynamics | 3/3 | ||||
Advanced Electric Chemistry | 3/3 | ||||
Advanced New Material Process | 3/3 | ||||
Advanced Film Technology | 3/3 | ||||
Advanced Semiconductor Engineering | 3/3 | ||||
Advanced Reactive Velocity | 3/3 | ||||
Solar Battery Engineering | 3/3 | ||||
Case Study on New Materials | 3/3 | ||||
Total : classes | / |