Graduate study in The Major of Electronic Materials Engineering is designed to accommodate students from a wide range of backgrounds in science, engineering and technology. The Major offers two degree options for students wishing to pursue graduate study in Materials Science and Engineering:
- Master of Science (M.S.) in Materials Science and Engineering
- Doctor of Philosophy (Ph.D.) in Materials Science and Engineering
The coursework programs are designed specifically for students who have not specialized in materials and wish to improve their level of general knowledge. The research programs are focused specifically on a range of areas in materials fabrication, processing, performance, characterization and analysis. Through both coursework and research programs, students can obtain the fundamental knowledge, practical skills, and professional experience necessary to enter a successful career involving advanced materials.
Graduate application information
- All information necessary for applying via the University Application Site is now available.
- All application packages will be marked incomplete and rejected if the package is not 100% complete by the deadline posted.
The coursework programs
subject | Unit |
---|---|
Advanced Bioelectronic Devices | 3 |
Advanced Functional Materials | 3 |
Advanced Materials for Display | 3 |
Advanced Characterization for Nanomaterials and Devices | 3 |
Crystallography | 3 |
Advanced X-ray Diffraction | 3 |
Advanced Powder Processing 1 | 3 |
Advanced Powder Processing 2 | 3 |
Advanced Nanostructured Composite 1 | 3 |
Advanced Nanostructured Composite 2 | 3 |
Advanced computational material science | 3 |
Advanced Bio Materials | 3 |
Sensors | 3 |
Materials for Computing Devices 1 | 3 |
Materials for Computing Devices 2 | 3 |
Nanoelectronics | 3 |
Biomaterials | 3 |
Statistical Mechanics | 3 |
Advanced Mechanical Behavior of Materials | 3 |
Advanced Piezoelectric Materials & Devices 1 | 3 |
Advanced Piezoelectric Materials & Devices 2 | 3 |
Advanced thermoelectric Materials & Devices 1 | 3 |
Advanced thermoelectric Materials & Devices 2 | 3 |
Advanced Joining Engineering | 3 |
Advanced Fuel Cell 1 | 3 |
Advanced Fuel Cell 2 | 3 |
Advanced Ceramic Processing 1 | 3 |
Advanced Ceramic Processing 2 | 3 |
Advanced Materials Characterization 1 | 3 |
Advanced Materials Characterization 2 | 3 |
Amorphous and Glass Materials | 3 |
Soft Materials and Devices | 3 |
Introduction to Bioelectronics | 3 |
Introduction to Energy Harvesting Technology | 3 |
Dielectric and Ferroelectric Materials 1 | 3 |
Dielectric and Ferroelectric Materials 2 | 3 |
Semiconductor Optics | 3 |
Physical Properties of Semiconductors | 3 |
Advanced Semiconductor Lasers | 3 |
Advanced Thin Film Processing | 3 |
Advanced Semiconductor Processing 1 | 3 |
Advanced Semiconductor Processing 2 | 3 |
R&D Management | 3 |