栗軍帥,男,蘭州大學物理學院教授,博士生導師。入現職前分別在日本埼玉大學(2006年10月-2008年9月)、新加坡南洋理工大學(2008年9月-2012年3月)及新加坡科技發展局微電子研究所(2008年12月-2009年12月)從事與矽基新型清潔能源器件設計與製備等相關的研究工作。2011年被蘭州大學“萃英計畫”引進為教授。現主持與矽基新能源器件研究相關的國家自然科學基金項目2項、教育部博士點基金1項。
近5年來,在包括有國際電子器件”奧林匹克”之稱的IEEE International Electron Devices Meeting,國際重要學術期刊Applied Physics Letters、Small、Nanoscale、Nanotechnology、IEEE Electron Device Letters、IEEE Transactions on Electron Devices、Optics Letters、Journal of Applied Physics等公開發表科技論文40餘篇,應邀撰寫書目章節2章、綜述論文1篇。相關研究成果被國內外新聞媒體和科技網站報導。是Nanotechnology、Applied Physics Letters、Nanoscale等10餘種國際重要學術期刊的審稿人。
基本介紹
- 中文名:栗軍帥
- 職業:蘭州大學物理學院教授,博士生導師
- 代表作品:IEEE Electron Device Letters
- 性別:男
研究方向,論文論著,
研究方向
1.矽基納米/亞微米結構的光電學特性研究及在太陽電池中的套用;
2.基於廉價掩模版技術的矽基納米/亞微米結構的製備及相應光伏原型器件的實現;
3.其它清潔能源材料、結構和器件的開發。
論文論著
部分代表論文/著
- Radial junction Si micro/nano-wire array photovoltaics: Recent progress from theoretical investigation to experimental realization, Nano Energy 7, 10-24 (2014).
- Efficient light trapping in low aspect-ratio honeycomb nanobowl surface texturing for crystalline silicon solar cell applications, Applied Physics Letters 103, 253105 (2013).
- Solar energy harnessing in hexagonally arranged Si nanowire arrays and effects of array symmetry on optical characteristics, Nanotechnology 23, 194010 (2012).
- Aligned Si nanowire-based solar cells, Nanoscale 3, 4888 (2011) .
- Novel low aspect-ratio Si nano-hemisphere array surface texturing for solar cell applications,Small 7, 3138 (2011).
- Low aspect-ratio hemispherical nanopit array surface texturing for enhancing light absorption in crystalline Si thin film-based solar cells, Applied Physics Letters 98, 021905 (2011).
- Si nanocone array optimization on Si thin films for solar energy harvesting, Journal of Physics D: Applied Physics 43, 255101 (2010).
- Design guidelines of periodic Si nanowire arrays for solar cell application, Applied Physics Letters 95, 243113 (2009).
- Si nanopillar array optimization on Si thin films for solar energy harvesting, Applied Physics Letters 95, 033102 (2009). [Also selected for publication on Virtual Journal of Nanoscale Science & Technology, August 3, 2009.]
- Boosting Short-Circuit Current With Rationally Designed Periodic Si Nanopillar Surface Texturing for Solar Cells, IEEE Transactions on Electron Devices 58, 3224 (2011).
- Design guideline of high efficiency crystalline Si thin film solar cell with nanohole array textured surface, Journal of Applied Physics 109, 084306 (2011).
- Si nanopillar array surface texture for thin film solar cell with radial p-njunction, IEEE Electron Device Letters 32, 176 (2011).
- Maskless fabrication of large scale Si nanohole array via laser annealed metal nanoparticles catalytic etching for photovoltaic application”, Journal of Applied Physics 108, 024301 (2010).
- Design high efficiency Si nanopillar array textured thin film solar cell, IEEE Electron Device Letters 31, 335 (2010).
- Optical absorption enhancement in nanopore textured silicon thin film for photovoltaic application, Optics Letters 35, 40 (2010).
- Surface nanostructure optimization for solar energy harvesting in Si thin film based solar cells, IEEE International Electron Devices Meeting (IEDM)-2009, pp. 547-550, Baltimore, U.S.A. Dec. 2009.
- Enhancement of Si-based solar cell efficiency via nanostructure integration, pp. 3-55, Book Chapter 1 in the book entitled “Energy Efficiency and Renewable Energy through Nanotechnology” (Springer-Verlag, 2011), ISBN: 978-0-85729-637-5.
