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  • 1
    Green MA, Emery K, King DL, Igari S. Solar cell efficiency tables (version 15). Progress in Photovoltaics: Research and Applications 2000; 8: 187196.
  • 2
    Green MA, Emery K, Hishikawa Y, Warta W. Solar cell efficiency tables (version 33). Progress in Photovoltaics: Research and Applications 2009; 17: 8594.
  • 3
    Morooka M, Noda K. Development of dye-sensitized solar cells and next generation energy devices. 88th Spring Meeting of The Chemical Society of Japan Tokyo, 26 March 2008.
  • 4
    Tipnis R. “Printed Solar Power: From Lab to Market”, Nortech Advanced Energy Speaker Series, February 3, 2009 (available at http://www.nortech.org/Docs/Ritesh%20Tipnis%20Plextronics.pdf).
  • 5
    Maruyama E, Terakawa A, Taguchi M, Yoshimine Y, Ide D, Baba T, Shima M, Sakata H, Tanaka M. Sanyo's challenges to the development of high-efficiency HIT solar cells and the expansion of HIT business, 4th World Conference on Photovoltaic Energy Conversion (WCEP-4), Hawaii, May, 2006.
  • 6
    Yan B, Yue G, Guha S. “Status of nc-Si:H Solar Cells at United Solar and Roadmap for Manufacturing a-Si:H and nc-Si:H Based Solar Panels” in “Amorphous and Polycrystalline Thin-Film Silicon Science and Technology 2007”, edited by V.Chu, S.Miyazaki, A.Nathan, J.Yang, H-W.Zan (Materials Research Society Symposium Proceeding, Vol. 989, Warrendale, PA, 2007), Paper #: 0989-A15-01.
  • 7
    Press release, Konarka, December 9, 2009.
  • 8
    Park SH, Roy A, Beaupre S, Cho S, Coates N, Moon JS, Moses D, Leclerc M, Lee K, Heeger AJ. Bulk heterojunction solar cells with internal quantum efficiency approaching 100%. Nature Photonics 2009; 3: 297303.
  • 9
    Jorgensen M, Norrman K, Krebs FC. Stability/Degradation of polymer solar cells. Solar Energy Materials and Solar Cells 2008; 92: 686714.
  • 10
  • 11
    Zhao J, Wang A, Green MA, Ferrazza F. Novel 19.8% efficient “honeycomb” textured multicrystalline and 24.4% monocrystalline silicon solar cells. Applied Physics Letters 1998; 73: 19911993.
  • 12
    Schultz O, Glunz SW, Willeke GP. Multicrystalline silicon solar cells exceeding 20% efficiency. Progress in Photovoltaics: Research and Applications 2004; 12: 553558.
  • 13
    Bergmann RB, Rinke TJ, Berge C, Schmidt J, Werner JH. Advances in monocrystalline Si thin-film solar cells by layer transfer Technical Digest, PVSEC-12 June, 2001, Chefju Island, Korea, 11–15.
  • 14
    Keevers MJ, Young TL, Schubert U, Green MA. 10% Efficient CSG Minimodules, 22nd European Photovoltaic Solar Energy Conference, Milan, September 2007.
  • 15
    Bauhuis GJ, Mulder P, Schermer JJ, HaverKamp EJ, van Deelen J, Larsen PK. High efficiency thin film GaAs solar cells with improved radiation hardness, 20th European Photovoltaic Solar Energy Conference, Barcelona, June, 2005; 468471.
  • 16
    Venkatasubramanian R, O'Quinn BC, Hills JS, Sharps PR, Timmons ML, Hutchby JA, Field H, Ahrenkiel A, Keyes B. 18.2% (AM1.5) efficient GaAs solar cell on optical-grade polycrystalline Ge substrate, Conference Record, 25th IEEE Photovoltaic Specialists Conference Washington, May 1997, 3136.
  • 17
    Keavney CJ, Haven VE, Vernon SM. Emitter structures in MOCVD InP solar cells Conference Record, 21st IEEE Photovoltaic Specialists Conference Kissimimee, May, 1990, 141144.
  • 18
    Repins I, Contreras M, Romero Y, Yan Y, Metzger W, Li J, Johnston S, Egaas B, DeHart C, Scharf J, McCandless BE, Noufi R. “Characterization of 19.9%-efficienct CIGS Absorbers”, IEEE Photovoltaics Specialists Conference Record 2008; 33.
  • 19
    Kessler J, Bodegard M, Hedstrom J, Stolt L. New world record Cu (In,Ga) Se2 based mini-module: 16.6% Proceedings, 16th European Photovoltaic Solar Energy Conference Glasgow, 2000, 20572060.
  • 20
    Wu X, Keane JC, Dhere RG, DeHart C, Duda A, Gessert TA, Asher S, Levi DH, Sheldon P. 16.5%-efficient CdS/CdTe polycrystalline thin-film solar cell Conf. Proceedings, 17th European Photovoltaic Solar Energy Conference Munich, 22–26 October 2001, 9951000.
  • 21
    Meier J, Sitznagel J, Kroll U, Bucher C, Fay S, Moriarty T, Shah A. Potential of amorphous and microcrystalline silicon solar cells. Thin Solid Films 2004; 451–452: 518524.
  • 22
    Yamamoto K, Toshimi M, Suzuki T, Tawada Y, Okamoto T, Nakajima A. Thin film poly-Si solar cell on glass substrate fabricated at low temperature MRS Spring Meeting April, 1998, San Francisco.
  • 23
    Chiba Y, Islam A, Kakutani K, Komiya R, Koide N, Han L. High efficiency dye sensitized solar cells Technical Digest, 15th International Photovoltaic Science and Engineering Conference Shanghai, October, 2005, 665–666.
  • 24
  • 25
    Laird D, Vaidya S, Li S, Mathai M, Woodworth B, Sheina E, Williams S, Hammond T. “Advances in Plexcore™ active layer technology systems for organic photovoltaics: Roof-top and accelerated lifetime analysis of high performance organic photovoltaic cells” 2007, SPIE Proc., Vol. 6656, No. 12.
  • 26
    Ohmori M, Takamoto T, Ikeda E, Kurita H. High efficiency InGaP/GaAs tandem solar cells Tech. Digest, International PVSEC-9 Miyasaki, Japan, November, 1996, 525–528.
  • 27
    Mitchell K, Eberspacher C, Ermer J, Pier D. Single and tandem junction CuInSe2 cell and module technology Conf. Record, 20th IEEE Photovoltaic Specialists Conference Las Vegas, September, 1988, 13841389.
  • 28
    Yoshimi M, Sasaki T, Sawada T, Suezaki T, Meguro T, Matsuda T, Santo K, Wadano K, Ichikawa M, Nakajima A, Yamamoto K. High efficiency thin film silicon hybrid solar cell module on 1m2-class large area substrate Conf. Record, 3rd World Conference on Photovoltaic Energy Conversion Osaka, May, 2003, 15661569.
  • 29
    Zhao J, Wang A, Yun F, Zhang G, Roche DM, Wenham SR, Green MA. 20,000 PERL silicon cells for the “1996 World Solar Challenge” solar car race. Progress in Photovoltaics 1997; 5: 269276.
  • 30
    Rose D, Koehler O, Kaminar N, Mulligan B, King D. Mass Production of PV modules with 18% total-area efficiency and high energy delivery per peak watt, IEEE 4th World Conference on Photovoltaic Energy Conversion, pp. 20182023, May 7–12, 2006 Waikoloa, HI.
  • 31
    King DL, Schubert WK, Hund TD. World's first 15% efficiency multicrystalline silicon modules Conf. Record, 1st World Conference on Photovoltaic Energy Conversion Hawaii, December, 1994, 16601662.
  • 32
    Basore PA. Pilot production of thin-film crystalline silicon on glass modules Conf. Record, 29th IEEE Photovoltaic Specialists Conference New Orleans, May, 2002, 4952.
  • 33
    Tanaka Y, Akema N, Morishita T, Okumura D, Kushiya K. Improvement of Voc upward of 600mV/cell with CIGS-based absorber prepared by Selenization/Sulfurization Conf. Proceedings, 17th EC Photovoltaic Solar Energy Conference Munich, October, 2001, 989994.
  • 34
    Cunningham D, Davies K, Grammond L, Mopas E, O'Connor N, Rubcich M, Sadeghi M, Skinner D, Trumbly T. Large area Apollo™ module performance and reliability Conf. Record, 28th IEEE Photovoltaic Specialists Conference Alaska, September, 2000, 13–18.
  • 35
    Yang J, Banerjee A, Glatfelter T, Hoffman K, Xu X, Guha S. Progress in triple-junction amorphous silicon-based alloy solar cells and modules using hydrogen dilution Conf. Record, 1st World Conference on Photovoltaic Energy Conversion Hawaii, December, 1994, 380385.
  • 36
    Zhao J, Wang A, Green MA. 24.5% efficiency silicon PERT cells on MCZ substrates and 24.7% efficiency PERL cells on FZ substrates. Progress in Photovoltaics 1999; 7: 471474.
  • 37
    McIntosh K, Cudzonovic M, Smith D, Mulligan W, Swanson R. The choice of silicon wafer for the production of rear-contact solar cells Conference. Record, 3rd World Conference on Photovoltaic Energy Conversion Osaka, May 2003, 971974.
  • 38
    Niinobe D, Nishimura K, Matsuno S, Fujioka H, Katsura T, Okamoto T, Ishihara T, Morikawa H, Arimoto S. “Honeycomb structured multi-crystalline silicon solar cells with 18.6% efficiency via industrially applicable laser-process”, 23rd European Photovoltaic Solar Energy Conference and Exhibition, Valencia, Session Reference: 2CV.5.74, 2008.
  • 39
    Geisz J, Kurtz S, Wanlass MW, Ward JS, Duda A, Friedman DJ, Olson JM, McMahon WE, Moriarty TE, Kiehl JT. High-efficiency GaInP/GaAs/InGaAs triple-junction solar cells grown inverted with a metamorphic bottom junction. Applied Physics Letters 2007; 91: 023502.
  • 40
    Repins I, Contreras MA, Egaas B, DeHart C, Scharf J, Perkins CL, To B, Noufi R. 19.9%-efficient ZnO/CdS/CuInGaSe2 solar cell with 81.2% fill factor. Progress in Photovoltaics: Research and Applications 2008; 16(3): pp. 235239.
  • 41
    Yang J, Banerjee A, Sugiyama S, Guha S. Recent progress in amorphous silicon alloy leading to 13% stable cell efficiency Conf. Record, 26th IEEE Photovoltaic Specialists Conference Anaheim, September/October, 1997, 563568.
  • 42
    Han L, Fukui A, Fuke N, Koide N, Yamanaka R. High efficiency of dye sensitized solar cell and module, 4th World Conference on Photovoltaic Energy Conversion (WCEP-4), Hawaii, May, 2006.
  • 43
    Slade A, Garboushian V. 27.6% efficient silicon concentrator cell for mass production, Technical Digest, 15th International Photovoltaic Science and Engineering Conference, Shanghai, October 2005; 701.
  • 44
    King RR, Law DC, Edmondson KM, Fetzer CM, Kinsey GS, Yoon H, Sherif RA, Karam NH. 40% efficient metamorphic GaInP/GaInAs/Ge multijunction solar cells. Applied Physics Letters 2007; 90: 183516.
  • 45
    Geisz JF, Friedman DJ, Ward JS, Duda A, Olavarria WJ, Moriarty TE, Kiehl JT, Romero MJ, Norman AG, Jones KM. 40.8% efficient inverted triple-junction solar cell with two independently metamorphic junctions. Applied Physics Letters 2008; 93: 123505.
  • 46
    O'Neil MJ, McDanal AJ. Outdoor measurement of 28% efficiency for a mini-concentrator module, Proceedings, National Center for Photovoltaics Program Review Meeting, Denver, 16–19 April, 2000.
  • 47
    Chiang CJ, Richards EH, A 20% efficient photovoltaic concentrator module Conf. Record, 21st IEEE Photovoltaic Specialists Conference Kissimimee, May, 1990, 861863.
  • 48
    Fraas LM, Avery JE, Sundaram VS, Kinh VT, Davenport TM, Yerkes JW, Gee JM, Emery KA. Over 35% efficient GaAs/GaSb stacked concentrator cell assemblies for terrestrial applications Conf. Record, 21st IEEE Photovoltaic Specialists Conference Kissimimee, May, 1990, 190195.
  • 49
    Wanlass MW, Coutts TJ, Ward JS, Emery KA, Gessert TA, Osterwald CR. Advanced high-efficiency concentrator tandem solar cells Conf. Record, 21st IEEE Photovoltaic Specialists Conference Kissimimee, May, 1990, 3845.
  • 50
    Bett AW, Baur C, Beckert R, Diimroth F, Letay G, Hein M, Muesel M, van Riesen S, Schubert U, Siefer G, Sulima OV, Tibbits TND. Development of high-efficiency mechanically stacked GaInP/GaInAs-GaSb triple-junction concentrator solar cells Conf. Record, 17th European Solar Energy Conference Munich, October, 2001, 8487.
  • 51
    MacMillan HF, Hamaker HC, Kaminar NR, Kuryla MS, Ladle Ristow M, Liu DD, Virshup GF. 28% efficient GaAs solar cells 20th IEEE Photovoltaic Specialists Conference Las Vegas, September, 1988, 462468.
  • 52
    Zhang F, Wenham SR, Green MA. Large area, concentrator buried contact solar cells. IEEE Transactions on Electron Devices 1995; 42: 144149.
  • 53
    Gueymard CA, Myers D, Emery K. Proposed reference irradiance spectra for solar energy systems testing. Solar Energy 2002; 73: 443467.