硅酸盐学报

参考文献

[1]COMPAANA D.Photovoltaics:Clean power for the 21st century[J].Solar Energy Mater Solar Cells,2006,90(15):2170-2180.

[2]WRIGHT M,UDDIN A.Organic—inorganic hybrid solar cells:Acomparative review[J].Solar Energy Mater Solar Cells,2012,107:87-111.

[3]PARIDA B,INIYAN S,GOIC R.A review of solar photovoltaic technologies[J].Renewable Sust Energy Rev,2011,15(3):1625-1636.

[4]SINGH M,HAVERINEN HM,DHAGA TP,et al.Inkjet Printing-Process and Its Applications[J].Adv Mater,2010,22(6):673-685.

[5]WATSON T,REYNOLDS G,WRAGG D,et al.CorrosionMonitoring of Flexible Metallic Substrates for Dye-Sensitized Solar Cells[J].Inter J Photoenergy,2013,2013:1-8.

[6]陶杰,何雪婷,朱建平,等.柔性薄膜太阳能电池用不锈钢基板的成形技术[J].机械制造与自动化,2011,40(4):1-4.

[7]何雪婷,陶杰,孙显俊,等.柔性薄膜太阳能电池用精密不锈钢基板冷轧成形的数值模拟[J].机械制造与自动化,2012,41(1):86-89.HE Xueting,TAO Jie,SUN Xianjun,et al.Mach Build Autom(in Chinese),2012,41(1):86-89.

[8]DONKERVANDEN MN,GORDIJN A,STTIEBIG H,et al.Flexible amorphous and microcrystal1ine silicon tandem solar modules in the temporary superstrate concept[J].Sol Energy Mater So1Cells,2007,91:572-580.

[9]常丽君.MIT开发新技术能将太阳能电池印在纸上[N].科技日报,2011-2.CHANG Lijun.Sci Technol Daily(in Chinese),2011-2.

[10]ZYGA L.Researchers print solar cells on toilet paper,other delicate materials[EB/OL].[2011-01-04].http://phys.org/news/2011-01-solar-cells-toilet-paper-delicate.html#jCp.

[11]GUHA S,YANG J.Progress in amorphous and nanocrystalline silicon solar cells[J].J Non-Cryst Solids,2006,352(9-20):1917-1921.

[12]YANGJ,YANBJ,GUHAS.Amorphous and nanocrystalline silicon-based multi-junction solar cells[J].Thin Solid Films,2005,487(1-2):162-169.

[13]GUHA S,YANG J,YAN BJ.High efficiency multi-junction thin film silicon cells incorporating nanocrystalline silicon[J].Solar Energy Mater Solar Cells,2013,119:1-11.

[14]邓勋明,曹新民,杜文会,等.宽幅卷对卷镀膜技术制造薄膜硅太阳电池[J].太阳能,2013,5:37-38.DENG Yunming,CAO Xingmin,DU Wenhui,et al.Solar Energy(in Chinese),2013,5:37-38.

[15]孙启利,胡志华,廖华,等.柔性薄膜太阳电池组件遮阴测试研究[J].电池工业,2012,17(4):231-233.SUN Qili,HU Zhihua,LIAO Hua,et al.Chin Battery Ind(in Chinese),2012,17(4):231-233.

[16]TAO K,ZHANG DX,WANG LS,et al.Development of textured back reflector for n-i-p flexible silicon thin film solar cells[J].Solar Energy Mater Solar Cells,2010,94(5):709-714.

[17]BASOL BM,KAPUR VK,HALANI A,et al.Copper indium diselenide thin film solar cells fabricated on flexible foil substrates[J].Sol Energy Mater Sol Cells.,1993,29(2):163-173.

[18]KESSLER F,HERRMANN D,POWALLA M.Approaches to flexible CIGS thin-film solar cells[J].Thin Solid Films,2005,480-481:491-498.

[19]WUERZ R,EICKE A,FRANKENFELD M,et al.CIGS thin-film solar cells on steel substrates[J].Thin Solid Films,2009,517:2415-2418.

[20]姚娘娟,王善力.铜铟镓硒薄膜太阳电池发展现状[J].上海有色金属,2010,31(3):14-18.YAO Ningjuan,WANG Shanli.Shanghai Nonferr Metals(in Chinese),2010,31(3):14-18.

[21]王波,刘平,李伟,等.铜铟镓硒(CIGS)薄膜太阳能电池的研究进展[J].材料导报A:综述篇,2011,25(10):54-58.WANG Bo,LIU Ping,LI Wei,et al.Mater Rev A:Review Articles(in Chinese),2011,25(10):54-58.

[22]孙云.中国薄膜电池技术与发展概况(下)[J].太阳能,2011,(4):52-55.SUN Yun.Solar Energy(in Chinese),2011,(4):52-55.

[23]方小红,刘勇,王庆华,等.铜铟镓硒柔性薄膜太阳电池[J].电源技术,2007,31(7):569-572.FANG Xiaohong,LIU Yong,WANG Qinghua,et al.Chin J Power Sources(in Chinese),2007,31(7):569-572.

[24]方小红,赵彦民,杨立,等.铜铟镓硒柔性薄膜太阳电池的制备及性能表征[J].电源技术,2009,33(5):406-408.FANG Xiaohong,ZHAO Yanmin,YANG Li,et al.Chin J Power Sources(in Chinese),2009,33(5):406-408.

[25]ISHIZUKA S,YAMADA A,MATSUBARA K,et al.Development of high-efficiency flexible Cu(In,Ga)Se2 solar cells:A study of alkali doping effects on CIS,CIGS,and CGS using alkali-silicate glass thin layers[J].Current Appl Phys,2010,10(2):S154-S156.

[26]CABALLERO R,KAUFMANN CA,EISENBARTH T,et al.The influence of Na on low temperature growth of CIGS thin film solar cells on polyimide substrates[J].Thin Solid Films,2009,517(7):2187-2190.

[27]THONGKHAM W,PANKIEW A,YOODEE K,et al.Enhancing efficiency of Cu(In,Ga)Se2solar cells on flexible stainless steel foils using NaF co-evaporation[J].Solar Energy,2013,92:189-195.

[28]PHILIP J,DIMITRIOS H,ERWIN L,et al.New world record efficiency for Cu(In,Ga)Se2thin-film solar cells beyond20%[J].Progress Photovoltaics:Res Appl,2011,19(7):894-897.

[29]LIU CP,CHUANG CL.Fabrication of CIGS nanoparticle-ink using ball milling technology for applied in CIGS thin films solar cell[J].Powder Technol,2012,229:78-83.

[30]WANG W,SU YW,CHANG CH.Inkjet printed chalcopyrite CuInxGa1-xSe2thin film solar cells[J].Solar Energy Mater Solar Cells,2011,95:2616-2620.

[31]KAELIN M,RUDMANN D,TIWARI AN.Low cost processing of CIGS thin film solar cells[J].Solar Energy,2004,77(6):749-756.

[32]付甜甜.美国Ascent Solar技术公司的铜铟镓硒柔性薄膜太阳电池[J].电源技术,2013,37(2):179-180.FU Tiantian.Chin J Power Sources(in Chinese),2013,37(2):179-180.

[33]VAN DUREN JKJ,ROBINSON MR,CRAIG LEIDHOLM C.Photovoltaic devices printed from nanostructured particles[P].US Patent,20070163638.2007-07-19.

[34]SEOL JS,LEE SY,LEE JC,et al.Electrical and optical properties of Cu2ZnSnS4thin films prepared by rf magnetron sputtering process[J].Sol Energy Mater Sol Cells,2003,75(1-2):155-162.

[35]ITO K,NAKAZAWA T.Electrical and optical properties of stannite-type quaternary semiconductor thin films[J].Jpn J Appl Phys,1988,27:2094-2097.

[36]TANAKA K,OONUKI M,MORITAKE N,et al.Cu2ZnSnS4thin filmsolarcellspreparedbynon-vacuumprocessing[J].SolarEnergy MaterSolar Cells,2009,93(5):583-587.

[37]BICCARIA F,CHIERCHIA R,VALENTINI M,et al.Fabrication of Cu2ZnSnS4solar cells by sulfurization of evaporated precursors[J].Energy Procedia,2011,10:187-191.

[38]TANAKA T,YSHIDA A,SAIKI D,et al.Influence of composition ratio on properties of Cu2ZnSnS4thin films fabricated by co-evaporation[J].Thin Solid Films,2010,518(21):S29-S33.

[39]KATAGIRI H.Cu2ZnSnS4thin film solar cells[J].Thin Solid Films,2005,480-481:426-432.

[40]KATAGIRI H,JIMBO K,MAW WS,et al.Development of CZTS-based thin film solar cells[J].Thin Solid Films,2009,517(7):2455-2460.

[41]WANG K,GUNAWAN O,TODOROV T,et al.Thermally evaporated Cu2ZnSnS4solar cells[J].Appl Phys Lett,2010,97(14):1435081-1435083.

[42]ZHOU Z H,WANG Y Y,XU D,et al.Fabrication of Cu2ZnSnS4screen printed layers for solar cells[J].Solar Energy Mater Solar Cells,2010,94(12):2042-2045.

[43]SCHURR R,HLZING A,JOST S,et al.The crystallisation of Cu2ZnSnS4thin film solar cell absorbers from co-electroplated Cu-Zn-Sn precursors[J].Thin Solid Films,2009,517(7):2465-2468.

[44]O’REGAN B,GR¨ATZEL M.A low-cost,high-efficiency solar cell based on dye-sensitized colloidal TiO2films[J].Nature,1991,353:737-740.

[45]WEERASINGHE HC,HUANG FZ,CHENG YB.Fabrication of flexible dye sensitized solar cells on plastic substrates[J].Nano Energy,2013,2(2):174-189.

[46]TOIVOLA M,AHLSKOG F,LUND P.Industrial sheet metals for nanocrystalline dye-sensitized solar cell structures[J].Solar Energy Mater Solar Cells,2006,90(17):2881-2893.

[47]KANG MG,PARK NG,PRUA SK,et al.A 4.2%efficient flexible dye-sensitized TiO2solar cells using stainless steel substrate[J].So1Energy Mater So1Cells,2006,90(5):574-581.

[48]JUN Y,KIM J,KANG MG.A study of stainless steel-based dye-sensitized solar cells and modules[J].So1Energy Mater So1Cells,2007,91(9):779-784.

[49]PARK JH,JUN Y,YUN H,et al.Fabrication of an efficient dye-sensitized solar cell with stainless steel substrate[J].J Electrochem Soc,2008,155(7):145-149.

[50]HUANG X,SHEN P,ZHAO B,et al.Stainless steel meshbased flexible quasi-solid dye-sensitized solar cells[J].Solar Energy Mater Solar Cells,2010,94(6):1005-1010.

[51]BARATON M.Nano-TiO2for dye-sensitized solar cells[J].Recent Patents Nanotechnol,2012,6(1):10-15(6).

[52]CHU F,LI W,SHI C S,et al.Performance improvement of dye-sensitized solar cells using room-temperature-synthesized hierarchical TiO2honeycomb nanostructures[J].ACS Appl Mater Interfaces,2013,5(15):7170-7175.

[53]MENG L J,WU M X,WANG Y M,et al.Effect of the compact Ti layer on the efficiency of dye-sensitized solar cells assembled using stainless steel sheets[J].Appl Surface Sci,2013,275:222-226.

[54]ESPINOSA N,VALVERDE R,URBINA A,et al.A life cycle analysis of polymer solar cell modules prepared using roll-to-roll methods under ambient conditions[J].Solar Energy Mater Solar Cells,2011,95(5):1293-1302.

[55]PO R,CARBONERA C,BERNARDI A,et al.Polymerand carbon-based electrodes for polymer solar cells:Toward low-cost,continuous fabrication over large area[J].Solar Energy Mater Solar Cells,2012,100:97-114.

[56]CHANG Y M,CHEN C P,DING J MJ,et al.Top-illuminated organic solar cells fabricated by vacuum-free and all-solution processes[J].Solar Energy Mater Solar Cells,2013,109:91-96.

[57]KIM Y,YEOM H R,KIM J Y,et al.High-efficiency polymer solar cells with a cost-effective quinoxaline polymer through nanoscale morphology control induced by practical processing additives[J].Energy Environ Sci,2013,6:1909-1916.

[58]TANENBAUM D M,DAM H F,ROSCH R,et al.Edge sealing for low cost stability enhancement of roll-to-roll processed flexible polymer solar cell modules[J].Solar Energy Mater Solar Cells,2012,97:157-163.

[59]GRANDE L,CHUNDI V T,WEI D,et al.Graphene for energy harvesting/storage devices and printed electronics[J].Particuology,2012,10(1):1-8.

[60]PARK H,CHANG S,JEAN J,et al.Graphene cathodebased ZnO nanowire hybrid solar cells[J].Nano Lett,2013,13(1):233?239.

[61]刘志全,杨淑利,濮海玲.空间太阳电池阵的发展现状及趋势[J].航天器工程,2012,21(6):112-118.LIG Shuli,PU Hailing.Spacecraft Eng(in Chinese),2012,21(6):112-118.

[62]董磊.柔性薄膜电池与光伏建筑一体化[J].中国建筑防水,2011,15:27-32.DONG Lei.Chin Build Waterproof Mater(in Chinese),2011,15:27-32.

[63]李娅莉,赵欲晓,苏建梅,等.柔性太阳能电池在服装领域的应用[J].上海纺织科技,2013,41(2):1-4.LI Yali,ZHAO Yuxiao,SU Jianmei,et al.Shanghai Textile Sci Technol(in Chinese),2013,41(2):1-4.