00394nas a2200109 4500008004100000245008500041210006900126300001200195490000700207100002100214856004900235 2009 eng d00aThe path to 25% silicon solar cell efficiency: History of silicon cell evolution0 apath to 25 silicon solar cell efficiency History of silicon cell a183-1890 v171 aGreen, Martin, A uhttps://www.pveducation.org/zh-hans/node/31700432nas a2200133 4500008004100000020002200041245002700063210002700090250003800117260003600155300000800191100001900199856008000218 2009 eng d a978-3-527-40857-300aPhysics of Solar Cells0 aPhysics of Solar Cells a2nd, updated and expanded edition aMörlenbach, GermanybWiley-VCH a1831 aWürfel, Peter uhttp://www.amazon.com/Physics-Solar-Cells-Principles-Concepts/dp/352740428700773nas a2200241 4500008004100000245012600041210006900167260000800236300001100244490000700255653002100262653002400283653002900307653002200336653001200358653001600370100002000386700001800406700002200424700001800446700002100464856004600485 2005 eng d00aPhotographic surveying of minority carrier diffusion length in polycrystalline silicon solar cells by electroluminescence0 aPhotographic surveying of minority carrier diffusion length in p bAIP a2621080 v8610acarrier lifetime10aelectroluminescence10aelemental semiconductors10aMINORITY CARRIERS10aSILICON10asolar cells1 aFuyuki, Takashi1 aKondo, Hayato1 aYamazaki, Tsutomu1 aTakahashi, Yu1 aUraoka, Yukiharu uhttp://link.aip.org/link/?APL/86/262108/100499nas a2200133 4500008004100000020001800041245004100059210004100100260003000141300000800171100002300179700002500202856013800227 2005 eng d a3-540-23676-700aPhotovoltaic Solar Energy Generation0 aPhotovoltaic Solar Energy Generation aBerlin, GermanybSpringer a2321 aGoetzberger, Adolf1 aHoffmann, Volker Uwe uhttp://www.amazon.com/Photovoltaic-Solar-Energy-Generation-Goetzberger/dp/3642062601/ref=sr_1_2?s=books&ie=UTF8&qid=1279649098&sr=1-200416nas a2200133 4500008004100000020001800041245003100059210002700090260003900117300000800156520001100164100001800175856008900193 2003 eng d a1-86094-340-300aThe Physics of Solar Cells0 aPhysics of Solar Cells aLondon, UKbImperial College Press a3553 a
1 aNelson, Jenny uhttp://www.amazon.com/Physics-Solar-Properties-Semiconductor-Materials/dp/186094349700532nas a2200157 4500008004100000022001300041245010300054210006900157260001600226300001400242490000800256100002100264700002100285700001900306856004900325 1997 eng d a0031896500aPreparation of Zinc Selenide Thin Films by Electrodeposition Technique for Solar Cell Applications0 aPreparation of Zinc Selenide Thin Films by Electrodeposition Tec cJan-10-1997 aR11 - R120 v1631 aChandramohan, R.1 aSanjeeviraja, C.1 aMahalingam, T. uhttps://www.pveducation.org/zh-hans/node/53001165nas a2200121 4500008004100000245003300041210003200074260002600106300000800132520080900140100002100949856007300970 1990 eng d00aPhotovoltaics: Coming of Age0 aPhotovoltaics Coming of Age aOrlando, USAc05/1990 a1-83 aThe history of photovoltaic development is reviewed. An outline of the potential of the technology as the author views it is given. The challenge to be met to reach this potential is to develop high-efficiency technologies which can be produced at low cost. Three factors suggest this is possible. The first is the latent efficiency still to be recovered with even the most highly developed cell technologies. The second is the recent progress with tandem cells, which suggests that most of the 30-40% efficiency advantage over single-junction devices will eventually be realized. Tandem cells are likely to offer cost advantages in very high volume production. The third is the pyramid of possibilities, the wide range of semiconductors which still have to be evaluated for their photovoltaic potential.1 aGreen, Martin, A uhttp://ieeexplore.ieee.org/lpdocs/epic03/wrapper.htm?arnumber=11158200292nam a2200109 4500008004100000245001500041210001500056260003400071100001500105700001300120856004900133 1985 eng d00aPerception0 aPerception aNew YorkbAlfred A. Knopf Inc1 aSekuler, R1 aBlake, R uhttps://www.pveducation.org/zh-hans/node/37700343nam a2200097 4500008003900000245004700039210004700086260005400133100000900187856004900196 1984 d00aPhotovoltaics for Residential Applications0 aPhotovoltaics for Residential Applications aGolden, ColoradobSolar Energy Research Institute1 aSERI uhttps://www.pveducation.org/zh-hans/node/42000359nas a2200133 4500008004100000245003900041210003600080300001400116490000700130100001200137700001300149700001400162856004900176 1983 eng d00aOn Phosphorus Diffusion in Silicon0 aPhosphorus Diffusion in Silicon a6912-69220 v541 aHu, S M1 aFahey, P1 aSutton, P uhttps://www.pveducation.org/zh-hans/node/33300768nas a2200145 4500008004100000022001400041245006500055210006300120260001200183300001400195490000700209520034100216100001600557856004900573 1977 eng d a0018-938300aPhysical operation of back-surface-field silicon solar cells0 aPhysical operation of backsurfacefield silicon solar cells c04/1977 a322 - 3250 v243 a
Using exact numerical solutions of carrier transport in the back-surface-field silicon solar cell both for guidance and for verification, the physical mechanisms effective in this device are identified and explained. Concise analytical descriptions of the cell performance, based on the pertinent device physics, are formulated.
1 aFossum, J G uhttps://www.pveducation.org/zh-hans/node/30900383nas a2200121 4500008004100000245006000041210006000101300001200161490000700173100001900180700001300199856004900212 1952 eng d00aPhotoelectric Properties of Tonically Bombarded Silicon0 aPhotoelectric Properties of Tonically Bombarded Silicon a802-8150 v311 aKingsbury, E F1 aOhl, R S uhttps://www.pveducation.org/zh-hans/node/341