As the world transitions to renewable energy systems, it is crucial for future physicists and researchers to understand how energy materials function and interact with light, charge, and other media. This course will give you a strong foundation in the materials and physical principles behind renewable energy technologies, with a focus on solar energy and its harvesting methods. You will learn how energy materials interact with light, charge, and their surroundings, gaining insight into the relationship between atomic orbitals, electronic band structures, and their applications in photovoltaic devices and sustainable light-emitting sources. You will also explore other renewable energy technologies, including wind, hydro, thermoelectric methods, and energy storage solutions. By combining theoretical knowledge with practical applications, you will develop the skills to analyze the efficiency, material requirements, and scalability of various renewable energy systems, assessing their real-world potential.
| Academic Units | 3 |
| Exam Schedule | Tue Apr 28 2026 00:00:00 GMT+0000 (Coordinated Universal Time) 17:00-19:00 |
| Grade Type | Letter Graded |
| Department Maintaining | PHY(SPS) |
| Prerequisites |
| Index | Type | Group | Day | Time | Venue | Remark |
|---|---|---|---|---|---|---|
| 70818 | LEC/STUDIO | LE | MON | 0930-1120 | SPMS-LT4 | |
| 70818 | TUT | T | TUE | 1230-1320 | SPMS-LT3 |
0930
1030
1130
1230
1330
1430
1530
1630
1730
PH3411
LEC/STUDIO | SPMS-LT4
PH3411
TUT | SPMS-LT3
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