劉愛民(大連理工大學教授)

劉愛民(大連理工大學教授)

劉愛民教授(博士生導師)是大連理工大學太陽能電池研究所所長,大連市太陽能電池研發中心公共技術創新平台與公共測試分析平台主任;曾在以色列特拉維夫大學、日本北海道大學及紐西蘭坎特伯雷大學留學、工作多年。主要研究方向為光伏材料與器件的製備與表征。

基本介紹

人物經歷,研究領域,著作論文,

人物經歷

1986.9-1990.7:蘭州大學物理系學習,獲學士學位。
1990.9-1993.7:蘭州大學物理系學習,凝聚態專業碩士學位。化學氣相沉積技術製備金剛石薄膜。
1993.9-1997.1:中國科學院半導體研究所,半導體材料與器件專業工學博士學位。GaAs/GaSb高效疊層太陽能電池的製備與分析。
1997.1-1999.1:以色列特拉維夫大學電子工程系,博士後。光伏材料與器件中的載流子複合動力學研究。
1999.3-2000.3:日本北海道大學量子界面研究中心工作,從事半導體表面與界面的表征工作。
2000.3-2002.4:紐西蘭坎特伯雷大學工作,從事半導體材料的製備與光電錶征工作。
2002.4-現在, 大連理工大學物理與光電工程學院工作,任職教授。
大連理工大學 太陽能電池研究所 所長。
大連市太陽電池公共技術創新平台與公共測試分析平台 主任。

研究領域

主要研究方向:
光伏材料與器件的製備與表征。主持國家自然科學基金、教育部留學回國人員研究基金、遼寧省自然科學基金、國防重大基金、科技部863重大項目(黑矽太陽電池技術,項目編號:20 11AA050516)、企業重大技術攻關,大連市太陽電池公共平台,大連理工-錦州太陽能電池研發中心建設等課題。
主要研究領域:
(1)黑矽太陽電池技術;(2)高效率n型矽電池技術;(3)太陽電池設計與仿真;(4)GaSb熱光伏電池與系統;(5) 光伏材料與器件的表征與分析。
碩博研究方向
1. 研究方向:
高效率n型矽太陽電池技術,太陽電池設計與仿真。
2. 研究生培養目標:
通過研究生階段的學習和訓練,掌握太陽電池的前沿技術,以及獨立研發高效率新型太陽電池的本領,成為光伏產業技術進步的生力軍。

著作論文

專利:
1. 一種太陽能電池 發明專利,專利號:201010200334
2. 一種太陽能電池 發明專利,專利號:201010199319
3. 介質阻擋放電電漿熱絲化學氣相沉積的方法與裝置,發明專利,專利號:200610134141
主持翻譯:《半導體材料與器件表征技術》,大連理工大學出版社,2008年6月。
(原著:《Semiconductor Material and Device Characterization》by Dieter K. Schroder.)
PUBLICATIONS
Wei Yi, Li Ping, Wang Yuxuan, Tan Xin, Song Chengyuan, Lu Cunxi, Zhao Zengchao, Liu Aimin, Quality improvement of screen printed Al emitter by using SiO2 interfacial layer for industrial n-type silicon solar cells, Solar Energy, 118, 384-389(2015).
Zhao Zengchao, Li Ping, Wei Yi, Liu Aimin, 17.3% efficient black silicon solar cell without dielectric antireflection coating, Solar energy, 110, 714–719(2014).
Zhao Zengchao, Zhang Bingye, Li Ping, Guo Wan, Liu Aimin, Effective Passivation of Large Area Black Silicon Solar Cells by SiO2/SiNx:H Stacks, International Journal of Photoenergy, 683654-683656(2014).
Liu Weifeng, Bian Jiming, Zhao Zengchao, Luo Yingmin, Yuan Ze, Zhang Bingye and Liu Aimin, Low Temperature Surface Passivation of Black Silicon Solar Cells by High-Pressure O2 Thermal Oxidation, ECS Solid State Letters, 2 (4), Q17-Q20 (2013) .
Kang Dawei, Liu, Aimin, Bian Jiming, Hu Zengquan, Liu Yiting, Qiao Fen, Enhanced surface photovoltage response of ZnO nanorod based inorganic/organic hybrid junctions by constructing embedded bulk composite structures, Applied Physics, A110, 263 (2013).
Zhang Bingye, Yang Chen, Liu Weifeng, and Liu Aimin, Origin of breakdown mechanism in multicrystalline silicon solar cells, Applied Physics Letter, 101, 093903 (2012).
Yongchang Sang, Aimin Liu, Weifeng Liu, Dawei Kang, Investigation of P3HT/n-Si heterojunction using surface photovoltage spectroscopy, vacuum, 86, 2158 (2012).
Yongchang Sang, Weifeng Liu, Fen Qiao, Dawei Kang, Aimin Liu, Transient photovoltage in poly(3-hexylthiophene)/n-crystallinesilicon heterojunction, Vacuum 93, 28 (2013).
Dawei Kang, Aimin Liu, Jiming Bian, and Yongchang Sang, Optoelectronic Characteristics of Zinc Oxide Nanorods/P3HT Hybrid Junctions Investigated Using Surface Photovoltage Method, Solid State Letters, 1, 15 (2012).
Dawei Kang, Jiming Bian, Yongchang Sang, Aimin Liu, Jingchang Sun, Jun Xuan,Surface photovoltage analysis of ZnO nanorods/p-Si heterostructure Materials Science in Semiconductor Processing, 2013.
Yiting Liu, Aimin Liu, Zengquan Hu, Weifeng Liu, Fen Qiao, Impedance spectroscopy studies on CuPc/n-Si hybrid solar cell, Journal of Physics and Chemistry of Solids 73, 626 (2012).
Yingli Cao, Aimin Liu, Honghao Li, Yiting Liu, Fen Qiao, Zengquan Hu, Yongcang Sang, Fabrication of silicon wafer with ultra low reflectance by chemical etching method, Applied Surface Science, 257, 7411 (2011).
Yiting Liu, Aimin Liu, Weifeng Liu, Zengquan Hu, Yongchang Sang, Characterization of optoelectronic properties of the ZnO nanorod array using surface photovoltage technique, Applied Surface Science, 257, 1263 (2010).
Yiting Liu, Aimin Liu, Weifeng Liu, Yongchang Sang, Zengquan Hu, Dawei Kang, Photovoltaic properties of the copper-phthalocyanine and ZnO nanorod array system affected by ethanol, Applied Surface Science, 257, 2176 (2010).
Honghao Li, Weifeng Liu, Aimin Liu, Fen Qiao, Zengquan Hua, Yiting Liu, Metal grids-based texturization of monocrystalline silicon wafersfor solar cells, Solar Energy Materials & Solar Cells 94, 942(2010).
Fen Qiao, Xiaoya Hou, Yong Lu, Hui Chen, Aimin Liu, Xiao Hu, Ng Siu Choon, Photovoltaic characterization of poly (2,5-bis (3-dodecylthiophen-2-yl) -20, 200-biselenophene) for organic solar cells, Solar Energy Materials & Solar Cells 94 , 442(2010).
Fen Qiao , Aimin Liu, Yi Xiao , Yang Ping Ou , Ji quan Zhang , Yong chang Sang, Enhanced photovoltaic characteristics of solar cells based on n-type triphenodioxazine derivative, Microelectronics Journal, 39, 1568(2008).
Fen Qiao, Aimin Liu, Ying Zhou, Yi Xiao, Ping Ou Yang. Bulk heterojunction organic solar cell based on a novel fluorescent fluorine–boron complex, Journal of Material Science, 44, 1283(2009).
Fen Qiao, Aimin Liu, Zengquan Hu,Yiting Liu, Shuwen Yu, Ziguang Zhou. Improved photovoltaic properties of solar cells based on poly[9, 90-dioctyl-fluorene-co-bithiophene] and a soluble fullerene by microwave annealing, Journal of Material Science, 44, 3462(2009).
Zhankun weng, Aimin Liu, Yanhong Liu, Zengquang Hu, Formation of ZnO Thin Film on n-InP(100) by Electrochemical Deposition, Chinese Journal of Luminescence, 29, 283(2008)ZhanKun Weng, Aimin Liu,Yanhong Liu, Feng Xu, Guoqing Li,Xiaojuan Sun, Fabrication of microrods and microtips of InP by electrochemical etching, Applied surface science,253, 5133-5136(2007).
ZhanKun Weng, Aimin Liu, Yanhong Liu, Huijing Luo, Feng Xu, Xiuping Liang and Guotong Du, Formation of porous InP by cathodic decomposition, Microelectronics Journal,?38, 1191(2007).
Aimin Liu and Changkui Duan, Anomalous temperature dependent photoluminescence behaviour in porous InP treated by H plasma, J. of Luminescence 99,107(2002).
Aimin Liu and Changkui Duan, Formation and Raman scattering of uniform and straight pore arrays on InP (100), Physica E 9, 723(2001) .
Aimin Liu, Changkui Duan, Radiative recombination and filling effects of surface states in porous InP, Applied Physics Letter, 43, 78(2001) .
Aimin Liu and Changkui Duan, Temperature dependent photoluminescence in porous InP, Solid State Electronics, 45, 2089(2001)
Aimin Liu, Microstructure and Photoluminescence spectra of porous InP, Nanotechnology 12, L1-3(2001) .
H. Fujikura, A. Liu, A. Hamamatsu, and H. Hasegawa, Electrochemical formation of uniform and straight nano-pore arrays on (001) InP surfaces and their photoluminescence characterizations, Japanese Journal of Applied Physics 39, 4616 (2000).
Aimin Liu and Yossi Rosenwaks, Carrier recombination in InP single crystals: radiative versus nonradiative recombination, Journal Applied Physics 86, 430(1999) .
R. Cohen, L. Kronik, A. Shanzer, D. Cahen, A. Liu, Y. Rosenwaks, J. K. Lorenz, and A. B. Ellis, Molecular control over semiconductor surface electronic properties: dicarboxylic acids on CdTe, CdSe, GaAs, and InP, Jornal of America Chemistry Society, 121 10545-10553 (1999).
R. Cohen and V. Lyahovitskaya, E. Poles, A. Liu and Y. Rosenwaks, Unusually low surface recombination and ultralong bulk lifetime in n-CdTe, Applied Physics Letter, 73, 1400(1998) .
工作成果(獎勵、專利等)
2008年,遼寧省科技轉化二等獎;
2009年,大連理工大學,優秀教材獎(研究生類)

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