Some of the important applications that Si simply cannot satisfy are high power electronic switches and deep ultraviolet sensors due to the intrinsic material properties. As much as we are interested in exploring new materials, there are important materials out there that we still need to understand better. Therefore, our primary goal here is to explore techniques to improve the "material" quality and enhance the overall device performance.
- Aluminum, Indium, Gallium Nitrides for LEDs, LDs, and power devices
- Aluminum, Indium, Gallium Oxides for DUV photo-detectors and power devices
Recently, there have been extensive theoretical and experimental studies on a new phase of material known as a quantum material. Possible manifestation of quantum phenomena on the scale that could be useful for practical applications (hundreds of micrometers) has led many researchers to exploring old and new materials that possess this new phase. The quantum materials have a huge potential for new types of spintronics and more exotic electronics. We are also in search for the materials that could change the way we think about the electronics and opto-electronics!
- Synthesis of new 2D and 3D materials by a conventional growth method for the realization of quantum phase such as topological insulator
국가
대한민국
소속기관
경북대학교 (학교)
연락처
053-950-6667 https://sites.google.com/view/epemlab/research
책임자
정병규 roy.b.chung@knu.ac.kr