Objectives
New, advanced materials are required to ensure more efficient and effective usage of energy. The program featured here leads students to acquire professional knowledge and research skills in the areas of superconductive energy technology, fuel-cell hydrogen energy, solar energy, and a variety of other energy and semiconductor technologies so that they could become the creative workforce essential for producing and saving energy in the future.
Major Programs
Superconductive materials
Heat-resistant, anti-corrosive materials
Thin film materials
Electric, electronic materials
Heat-resistant, anti-corrosive materials
Thin film materials
Electric, electronic materials
Semester | Type | Classification | Class | Credit /hour |
Code |
---|---|---|---|---|---|
1st Semester |
Master /Doctor |
Selective | Application of Laser for materials in progress | 3/3 | EN7136 |
Electromagnetic Materials | 3/3 | EN7306 | |||
Thermodynamics of Materials | 3/3 | EN7314 | |||
Nanostructured Materials | 3/3 | EN7315 | |||
Solid State Physics | 3/3 | EN7353 | |||
Studies in Structure of Materials | 3/3 | NC7102 | |||
Experimental Design | 3/3 | NC7106 | |||
Application of Advanced Materials | 3/3 | NC7107 | |||
Analysis of Material Properties | 3/3 | NC7154 | |||
2nd Semester |
Master /Doctor |
Selective | Superconducting Materials and its application | 3/3 | EN7310 |
Advanced Energy Materials | 3/3 | EN7352 | |||
Electrochemistry in Metals | 3/3 | NC7127 | |||
Integrated Manufacturing Process for Advanced Materials | 3/3 | NC7128 | |||
Advanced thin film engineering | 3/3 | NC7129 | |||
Micro Electro Mechanical System | 3/3 | NC7130 | |||
Solidification | 3/3 | NC7131 | |||
Application of Advanced Materials | 3/3 | NC7132 | |||
Phase Transformations in Materials | 3/3 | NC7159 | |||
Total | 18classes | 54 |