| 課程簡述 |
This 16-week course introduces students to the fundamental principles of semiconductors and their application in green technologies, focusing on optoelectronic materials and sustainable energy solutions. The course covers essential semiconductor knowledge, including basic properties, materials, and fabrication techniques. It explores semiconductor optoelectronic materials, such as those used in solar cells, LEDs, and photodetectors, with an emphasis on their role in environmental sustainability. In the first part of the course, students will learn about semiconductor fundamentals, energy band theory, charge carriers, and carrier transport. The course will also dive into key semiconductor materials used in renewable energy technologies, such as perovskites, silicon, and organic materials. A particular focus will be placed on the properties and application of semiconductor materials in green technologies, such as carbon capture, wind energy, and solar energy. The course will also examine cutting-edge technologies for carbon capture and storage (CCS), as well as sustainable energy systems like wind power and photovoltaics, to provide students with a well-rounded understanding of green energy solutions. In the final part of the course, each week will feature guest lectures from industry professionals who will share insights into real-world applications of semiconductors in green technologies, discussing topics like renewable energy systems, environmental impact, and industry innovations. This course is ideal for students interested in the intersection of materials science, renewable energy, and sustainable technologies. It is suitable for advanced undergraduates and graduate students in physics, materials science, environmental engineering, and related fields. Prior knowledge of basic semiconductor physics is recommended. |