光谱学与光谱分析 |
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Three Photons Quantum-Cutting System on the Rear Surface of Cells to Improve the Efficiencies of Solar Cells |
YAO Wen-ting, CHEN Xiao-bo*, CHENG Huan-li, ZHOU Gu, DENG Zhi-wei, LI Yong-liang, YAN Da-dong, PENG Fang-lin |
Appilied Optics Beijing Area Major Laboratory and Physics Department, Beijing Normal University, Beijing 100875, China |
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Abstract The authors present a solar cell model with a three photons quantum-cutting system on the rear surface, then the method of calculation of limiting efficiencies was used to get the maximum efficiency 58.58% at the band gap Eg=0.931 5 eV, and in contrast with two-photons quantum-cutting system, it is greatly improved. The result can prove that the three-photons quantum-cutting has a great sense to improve the efficiencies of solar cells. It is the exciting development for us to find out the useful luminescence materials to get the high efficiency.
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Received: 2014-02-09
Accepted: 2014-05-08
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Corresponding Authors:
CHEN Xiao-bo
E-mail: xbchen@bnu.edu.cn
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[1] ZHOU Bing-kun, CHEN Jia-er, WANG Yu-tang,et al. National Natural Science Foudation of China(周炳琨,陈佳洱,王玉堂,等. 国家自然科学基金委员会). Optical Electronics(光电子学). Beijing: Science Press(北京:科学出版社), 1991. [2] Zhou J J, Lin G, Qiu J R, et al. Appl. Phys. Lett.,2009, 95(14): 1411101. [3] WANG Jian-bo,XIANG Bing,LOU Chao-gang(王建波,向 兵,娄朝刚). Chinese Journal of Semiconductors(半导体学报),2006,27(6):1038. [4] Peng R W,Mazzer M. Applied Physics Letters,2003,83(4):770. [5] Green M A. Mater. Sci. Eng.,2000,B74: 118. [6] Kettemann S,Guillemoles J F. Physica E, 2002,14: 101. [7] Trupke T,Green M A. Journal of Applied Physics,2002,92(3):1668. [8] Chen X B,Wu J G,Xu X L,et al. Opt. Lett.,2009,34(7): 887. [9] Trupke T,Green M A. Journal of Applied Physics,2002,92(7):4117. [10] William Shockley,Hans J Queisser. Appl. Phys.,1961,32(3):510. [11] Barnham K W J, Ballard I, Connolly J P. Physica E, 2002, 14: 27. |
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