第301期：III-Nitrides: a Universal Semiconductor for Energy Applications Thermoelectric and Solar Cells
报告题目:III-Nitrides: a Universal Semiconductor for Energy Applications Thermoelectric and Solar Cells
报告人: Prof. Na (Luna) Lu (Purdue University, USA)
地点: 中国科学院半导体研究所 学术会议中心
Abstract: The development of wide-band gap compound semiconductors materials and structures has been led by the III-Nitrides and they are fueling a revolution in solid state lighting, solar cells, thermoelectric and other applications. The talk will review many of the contributions that the III-Nitrides have made to date before focusing on the development of InGaN for high temperature thermoelectric materials and a new generation of high efficient solar cells. Specifically, we will talk the various approaches to increase thermoelectric efficiency of III-nitrides, including electron quantum confinement, and phonon scattering to increase the power factor and decrease the lattice thermal conductivity. Additionally, high density-of-states (DOS) by size reduction, resonant states by impurity doping, and multi-valley band structure by band degeneracy have been utilized to further enhance its figure of merit (ZT) value. The impact of doping, and crystallographic defects on electrical and thermal properties on the TE properties of nitrides thin films grown by metal organic vapor deposition (MOCVD) will be systematically analyzed. Additionally, we will talk the III-Nitrides for a new generation of highly efficient solar cells. For instance, InGaN with indium compositions up to 30% have been developed for photovoltaic applications by controlling defects and phase separation. InGaN solar cell design involving a 2.9 eV InGaN p-n junction sandwiched between p- and n-GaN layers yields internal quantum efficiencies as high as 50%; while devices utilizing a novel n-GaN strained window-layer enhanced the open circuit voltage. These results establish the potential of III-Nitrides in ultra-high efficiency photovoltaics.
Biography：Na (Luna) Lu is an associate professor of College of Engineering and Birck Nanotechnology Center at Purdue University. She has extensive research expertise in nanomaterials synthesis and device development for energy related application, particularly, thermoelectric, solar cells and piezoelectric. Dr. Lu has authored over 60 technic publications; 1 book, 4 book chapters, 2 US patents and 3 provisional patents. She has given numerous keynote and invited talks at top research conferences, including Material Research Society (MRS), The Mineral, Metals and Materials (TMS), SPIE Photonic West and International Conference on Composites, etc. Her research work has been featured in national and regional media. She has won several scientific awards, including the most prestigious National Science Foundation (NSF) CAREER Award (2014). Her work is funded by various funding sources including federal agencies (NSF, DOE etc) and multiple private companies.