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PIN型和NIP型硅薄膜太阳电池中绒面陷光结构和陷光性能研究

于晓明 赵静 侯国付 张建军 张晓丹 赵颖

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PIN型和NIP型硅薄膜太阳电池中绒面陷光结构和陷光性能研究

于晓明, 赵静, 侯国付, 张建军, 张晓丹, 赵颖

Investigation of light trapping structure and performance in PIN-type and NIP-type thin film silicon solar cells

Yu Xiao-Ming, Zhao Jing, Hou Guo-Fu, Zhang Jian-Jun, Zhang Xiao-Dan, Zhao Ying
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  • 对于硅薄膜太阳电池来说, 无论是PIN型还是NIP型太阳电池, 采用绒面陷光结构来提高入射光的有效利用率是提高太阳电池效率的重要方法之一.本文采用标度相干理论对PIN和NIP型电池的绒面结构的陷光性能进行了数值模拟. 结果表明: PIN电池中前电极和NIP电池中背电极衬底粗糙度分别为160和40 nm时可获得理想的陷光效果; 在不同粗糙度背电极衬底上制备a-SiGe:H电池发现, 使用40和61.5 nm 背电极可获得相当的短路电流密度, 理论分析和实验得到了一致的结果.
    In both PIN-type and NIP-type thin film silicon solar cells, textured light trapping substrates are used to enhance light absorption and improve energy conversion efficiencies. Scalar scattering theory is used to simulate the light trapping performance of textured substrates. The results indicate that in order to get good light trapping performance, the root mean square (RMS) for front reflectors in PIN-type solar cells should be at least 160 nm, while it is only 40 nm for back reflectors in NIP-type solar cells. A series of a-SiGe:H single-junction solar cells is deposited on back reflectors with different RMS values. It is found that a-SiGe:H solar cells deposited on back reflectors with RMS values of 40 and 61.5 nm demonstrate similar short current density values and quantum efficiencies. These results indicate that RMS value of 40 nm is enough to get good light trapping performance, which is consistent with the numerical simulation.
    • 基金项目: 国家高技术研究发展规划(批准号: 2011AA050503)、国家重点基础研究发展计划 (批准号: 2011CBA00705, 2011CBA00706, 2011CBA00707)、国家自然科学基金(批准号: 61176060)、天津市自然科学基金重点项目(批准号: 12JCZDJC28300) 和天津市重大科技支撑计划项目(批准号: 11TXSYGX22100)资助的课题.
    • Funds: Project supported by the National High Technology Research and Development Program of China (Grant No. 2011AA050503), the National Basic Research Program of China (Grant Nos. 2011CBA00705, 2011CBA00706, 2011CBA00707), the National Natural Science Foundation of China (Grant No. 61176060), the Key Project of Natural Science Foundation of Tianjin, China (Grant No. 12JCZDJC28300), and the Major Science and Technology Supported Project of Tianjin, China (Grant No. 11TXSYGX22100).
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    [3]

    Deckman H W, Wronski C R, Witzke H, Yablonovitch E 1983 Appl. Phys. Lett. 42 968

    [4]

    Meng X Q, Drouard E, Gomard G, Peretti R, Fave A, Seassal C 2012 Opt. Express 20 A560

    [5]

    Boccard M, Battaglia C, Hänni S, Söderström K, Escarré J, Nicolay S, Meillaud F, Despeisse M, Ballif C 2012 Nano Lett. 12 1344

    [6]

    Python M, Madani O, Domine D, Meillaud F, Vallat-Sauvain E, Ballif C 2009 Sol. Energ. Mat. Sol. C 93 1714

    [7]

    Ding L, Boccard M, Bugnon G, Benkhaira M, Nicolay S, Despeisse M, Meillaud F, Ballif C 2012 Sol. Energ. Mat. Sol. C 98 331

    [8]

    Battaglia C, Escarré J, Söderström K, Charriére M, Despeisse M, Haug F J, Ballif C 2011 Nat. Photonics 5 535

    [9]

    Hou G F, Xue J M, Yuan Y J, Zhang X D, Sun J, Chen X L, Geng X H, Zhao Y 2012 Acta Phys. Sin. 61 058403 (in Chinese) [侯国付, 薛俊明, 袁育杰, 张晓丹, 孙建, 陈新亮, 耿新华, 赵颖 2012 61 058403]

    [10]

    Haug F J, Sonderstrom T, Python M, Terrazzoni-Daudrix V, Niquille X, Ballif C 2009 Sol. Energ. Mat. Sol. C 93 884

    [11]

    Dahal L R, Sainju D, Podraza N J, Marsillac S, Collins R W 2011 Thin Solid Films 519 2682

    [12]

    Yan B J, Yue G Z, Sivec L, Owens-Mawson J, Yang J, Guha S 2012 Sol. Energ. Mat. Sol. C 104 13

    [13]

    Saito K, Sano M, Okabe S, Sugiyama S, Ogawa K 2005 Sol. Energ. Mat. Sol. C 86 565

    [14]

    Li H B B T, Franken R H, Rath J K, Schropp R E I 2009 Sol. Energ. Mat. Sol. C 93 338

    [15]

    Born M, Wolf E 1999 Principles of Optics (7th Ed.) (Cambridge: Cambridge University Press) chapter 8

    [16]

    Beckmann P, Spizzichino A 1963 The Scattering of Electromagnetic Waves from Rough Surfaces (1st Ed.) (New York: Pergamon)

    [17]

    Macleod H A 1986 Thin-Film Optical Filters (2nd Ed.) (New York: Macmillan)

    [18]

    Carniglia C K 1979 Opt. Eng. 18 104

    [19]

    Bennett H E, Porteus J O 1961 J. Opt. Soc. Am. 51 123

    [20]

    Zeman M, van Swaaij R A C M M, Metselaar J W, Schropp R E I 2000 J. Appl. Phys. 88 6436

    [21]

    Krc J, Zeman M, Smole F, Topic M 2002 J. Appl. Phys. 92 749

    [22]

    Krc J, Zeman M, Smole F, Topic M 2004 Thin Solid Films 451 298

    [23]

    Lipovsek B, Krc J, Isabella O, Zeman M, Topic M 2010 J. Appl. Phys. 108 103115

    [24]

    Krc J, Zeman M, Kluth O, Smole F, Topic M 2003 Thin Solid Films 426 296

    [25]

    Bittkau K, Böttler W, Ermes M, Smirnov V, Finger F 2012 J. Appl. Phys. 111 083101

  • [1]

    Schropp R E I, Zeman M 1998 Amorphous and Microcrystalline Silicon Solar Cells: Modeling, Materials and Device Technology (1st Ed.) (Boston: Kluwer Academic)

    [2]

    Berginski M, Hpkes J, Gordijn A, Reetza W, Wätjen T, Rech B, Wuttig M 2008 Sol. Energ. Mat. Sol. C 92 1037

    [3]

    Deckman H W, Wronski C R, Witzke H, Yablonovitch E 1983 Appl. Phys. Lett. 42 968

    [4]

    Meng X Q, Drouard E, Gomard G, Peretti R, Fave A, Seassal C 2012 Opt. Express 20 A560

    [5]

    Boccard M, Battaglia C, Hänni S, Söderström K, Escarré J, Nicolay S, Meillaud F, Despeisse M, Ballif C 2012 Nano Lett. 12 1344

    [6]

    Python M, Madani O, Domine D, Meillaud F, Vallat-Sauvain E, Ballif C 2009 Sol. Energ. Mat. Sol. C 93 1714

    [7]

    Ding L, Boccard M, Bugnon G, Benkhaira M, Nicolay S, Despeisse M, Meillaud F, Ballif C 2012 Sol. Energ. Mat. Sol. C 98 331

    [8]

    Battaglia C, Escarré J, Söderström K, Charriére M, Despeisse M, Haug F J, Ballif C 2011 Nat. Photonics 5 535

    [9]

    Hou G F, Xue J M, Yuan Y J, Zhang X D, Sun J, Chen X L, Geng X H, Zhao Y 2012 Acta Phys. Sin. 61 058403 (in Chinese) [侯国付, 薛俊明, 袁育杰, 张晓丹, 孙建, 陈新亮, 耿新华, 赵颖 2012 61 058403]

    [10]

    Haug F J, Sonderstrom T, Python M, Terrazzoni-Daudrix V, Niquille X, Ballif C 2009 Sol. Energ. Mat. Sol. C 93 884

    [11]

    Dahal L R, Sainju D, Podraza N J, Marsillac S, Collins R W 2011 Thin Solid Films 519 2682

    [12]

    Yan B J, Yue G Z, Sivec L, Owens-Mawson J, Yang J, Guha S 2012 Sol. Energ. Mat. Sol. C 104 13

    [13]

    Saito K, Sano M, Okabe S, Sugiyama S, Ogawa K 2005 Sol. Energ. Mat. Sol. C 86 565

    [14]

    Li H B B T, Franken R H, Rath J K, Schropp R E I 2009 Sol. Energ. Mat. Sol. C 93 338

    [15]

    Born M, Wolf E 1999 Principles of Optics (7th Ed.) (Cambridge: Cambridge University Press) chapter 8

    [16]

    Beckmann P, Spizzichino A 1963 The Scattering of Electromagnetic Waves from Rough Surfaces (1st Ed.) (New York: Pergamon)

    [17]

    Macleod H A 1986 Thin-Film Optical Filters (2nd Ed.) (New York: Macmillan)

    [18]

    Carniglia C K 1979 Opt. Eng. 18 104

    [19]

    Bennett H E, Porteus J O 1961 J. Opt. Soc. Am. 51 123

    [20]

    Zeman M, van Swaaij R A C M M, Metselaar J W, Schropp R E I 2000 J. Appl. Phys. 88 6436

    [21]

    Krc J, Zeman M, Smole F, Topic M 2002 J. Appl. Phys. 92 749

    [22]

    Krc J, Zeman M, Smole F, Topic M 2004 Thin Solid Films 451 298

    [23]

    Lipovsek B, Krc J, Isabella O, Zeman M, Topic M 2010 J. Appl. Phys. 108 103115

    [24]

    Krc J, Zeman M, Kluth O, Smole F, Topic M 2003 Thin Solid Films 426 296

    [25]

    Bittkau K, Böttler W, Ermes M, Smirnov V, Finger F 2012 J. Appl. Phys. 111 083101

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计量
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出版历程
  • 收稿日期:  2012-07-30
  • 修回日期:  2013-02-07
  • 刊出日期:  2013-06-05

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