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17:0717:07, 1 February 2013 Difference History +1,151‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Effects of snow cover on UV irradiance and surface albedo: A case study R.L.McKenzie, K.J.Paulin,S.Madronich, “Effects of snow cover on UV irradiance and surface albedo: A case study", Journal of Geophysical Research: Atmospheres (1984–2012),
17:0417:04, 1 February 2013 Difference History +1,697‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Efficiency of multijunction photovoltaic systems J.L.Gray, “Efficiency of multijunction photovoltaic systems" Photovoltaic Specialists Conference, 2008. PVSC '08. 33rd IEEE, Page(s) 1-6, May 2008.
16:5916:59, 1 February 2013 Difference History +771‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Prediction of energy effects on photovoltaic systems due to snowfall events R.W.Andrews, “Prediction of energy effects on photovoltaic systems due to snowfall events" Photovoltaic Specialists Conference (PVSC), 2012 38th IEEE, Page(s) 003386-00
16:5516:55, 1 February 2013 Difference History +1,307‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Theoretical analysis of the optimum energy band gap of semiconductors for fabrication of solar cells for applications in higher latitudes locations T.Zdanowicza, T.Rodziewiczb, M.Zabkowska-Waclawekb, “Theoretical analysis of the optimum energy b
16:5216:52, 1 February 2013 Difference History +1,625‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Lattice-mismatched approaches for high-performance, III-V photovoltaic energy converters M.W.Wanlass, “Lattice-mismatched approaches for high-performance, III-V photovoltaic energy converters" Photovoltaic Specialists Conference, 2005. Conferenc
16:4916:49, 1 February 2013 Difference History +1,062‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎What is an air mass 1.5 spectrum? C.Riordan, “What is an air mass 1.5 spectrum?" Photovoltaic Specialists Conference, 1990., Conference Record of the Twenty First IEEE, Volume 2, Page(s): 1085-1088, May 1990.
16:4616:46, 1 February 2013 Difference History +1,264‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Variation in spectral irradiance and the consequences for multi-junction concentrator photovoltaic systems N.Chan, “Variation in spectral irradiance and the consequences for multi-junction concentrator photovoltaic systems," Photovoltaic Special
16:4216:42, 1 February 2013 Difference History +1,189‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* InGaP/GaAs-based multijunction solar cells Tatsuya Takamoto1, Minoru Kaneiwa, Mitsuru Imaizumi, Masafumi Yamaguchi, “InGaP/GaAs-based multijunction solar cells," Progress in Photovoltaics: Research and Applications, Volume 13, Issue 6, pages 495
16:3416:34, 1 February 2013 Difference History +1,540‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Radiative coupling effects in GaInP/GaAs/Ge multijunction solar cells Hojun Yoon, “Radiative coupling effects in GaInP/GaAs/Ge multijunction solar cells,"Photovoltaic Energy Conversion, 2003. Proceedings of 3rd World Conference on, Volume 1, Pag
16:2916:29, 1 February 2013 Difference History +1,303‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Multijunction solar cell technologies - high efficiency, radiation resistance, and concentrator applications T.Takamoto,, “Multijunction solar cell technologies - high efficiency, radiation resistance, and concentrator applications,"Photovoltaic

15:2815:28, 31 January 2013 Difference History +1,392‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Performance of amorphous silicon double junction photovoltaic systems in different climatic zones R.Gottschalg, “Performance of amorphous silicon double junction photovoltaic systems in different climatic zones," Photovoltaic Specialists Confere
15:2415:24, 31 January 2013 Difference History +1,195‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Fluctuations of the peak current of tunnel diodes in multi-junction solar cells K Jandieri1, S D Baranovskii1, W Stolz1, F Gebhard1, W Guter2, M Hermle2 and A W Bett2, “Fluctuations of the peak current of tunnel diodes in multi-junction solar ce
15:2015:20, 31 January 2013 Difference History +1,635‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Four-junction spectral beam-splitting photovoltaic receiver with high optical efficiency Bernhard Mitchell, Gerhard Peharz, Gerald Siefer, Marius Peters, Tobias Gandy, Jan Christoph Goldschmidt, Jan Benick, Stefan W.Glunz, Andreas W.Bett, Frank Di
15:1715:17, 31 January 2013 Difference History +1,497‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Theoretical performance of multi-junction solar cells combining III-V and Si materials Ian Mathews, Donagh O'Mahony, Brian Corbett, and Alan P.Morrison, “Theoretical performance of multi-junction solar cells combining III-V and Si materials," Op
15:1315:13, 31 January 2013 Difference History +1,463‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Novel materials for high-efficiency III–V multi-junction solar cells Masafumi Yamaguchia, Ken-Ichi Nishimuraa, Takuo Sasakia, Hidetoshi Suzukia, Kouji Arafunea, Nobuaki Kojimaa, Yoshio Ohsitaa, Yoshitaka Okadab, Akio Yamamotoc, Tatsuya Takamotod
15:1015:10, 31 January 2013 Difference History +1‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Novel materials for high-efficiency III–V multi-junction solar cells Masafumi Yamaguchia, Ken-Ichi Nishimuraa, Takuo Sasakia, Hidetoshi Suzukia, Kouji Arafunea, Nobuaki Kojimaa, Yoshio Ohsitaa, Yoshitaka Okadab, Akio Yamamotoc, Tatsuya Takamotod
15:1015:10, 31 January 2013 Difference History +1‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* AlGaAs tunnel junction for high efficiency multi-junction solar cells: Simulation and measurement of temperature-dependent operation Jeffrey F.Wheeldon, Christopher E.Valdivia and Alex Walker, “AlGaAs tunnel junction for high efficiency multi-ju
15:0915:09, 31 January 2013 Difference History +1,743‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* AlGaAs tunnel junction for high efficiency multi-junction solar cells: Simulation and measurement of temperature-dependent operation Jeffrey F.Wheeldon, Christopher E.Valdivia and Alex Walker, “AlGaAs tunnel junction for high efficiency multi-ju
15:0715:07, 31 January 2013 Difference History +1,510‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Nanostructures for photovoltaics Loucas Tsakalakos, "Nanostructures for photovoltaics," Materials Science and Engineering: R: Reports, Volume 62, Issue 6, Pages 175–189, 10 November 2008.
15:0315:03, 31 January 2013 Difference History +2,257‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Compound Semiconductor Nanowire Solar Cells Ke Sun, "Compound Semiconductor Nanowire Solar Cells," Selected Topics in Quantum Electronics, IEEE Journal of, Volume 17, Issue 4, Pages 1033-1049, July 2011.
14:5914:59, 31 January 2013 Difference History +1,477‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Analysis of thermoelectric characteristics of AlGaN and InGaN semiconductors H.Tong, H.Zhao, V.A.Handara, J.A.Herbsommer, and N.Tansu, “Analysis of thermoelectric characteristics of AlGaN and InGaN semiconductors," Proceedings of SPIE, Volume 72
14:5214:52, 31 January 2013 Difference History +1,259‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Multi-junction III–V solar cells: current status and future potential Masafumi Yamaguchia, Tatsuya Takamotob, Kenji Arakic, Nicholas Ekins-Daukes, "Multi-junction III–V solar cells: current status and future potential," Solar Energy, Volume 79

16:0216:02, 29 January 2013 Difference History +1,825‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Impact of spectral effects on the electrical parameters of multijunction amorphous silicon cells T.R.Betts, "Impact of spectral effects on the electrical parameters of multijunction amorphous silicon cells," Photovoltaic Energy Conversion, 2003. P
15:5815:58, 29 January 2013 Difference History +1,506‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Efficiency Enhancement of Organic and Thin-Film Silicon Solar Cells with Photochemical Upconversion Tim F.Schulze, Jens Czolk, Yuen-Yap Cheng, Burkhard Fückel, Rowan W.MacQueen, Tony Khoury, Maxwell J.Crossley, Bernd Stannowski, Klaus Lips, Uli L
15:5215:52, 29 January 2013 Difference History +1,702‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Performance analysis of a novel concentrating photovoltaic combined system Canan Kandilli, "Performance analysis of a novel concentrating photovoltaic combined system," Energy Conversion and Management, Volume 67, Pages 186–196, March 2013.
15:4715:47, 29 January 2013 Difference History +1,612‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Compound Semiconductor Nanowire Solar Cells Ke Sun, "Compound Semiconductor Nanowire Solar Cells ," Selected Topics in Quantum Electronics, IEEE Journal of, Volume 17, Issue 4, Pages 1033-1049, July 2011.
15:4115:41, 29 January 2013 Difference History +314‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Nanostructures for photovoltaics Loucas Tsakalakos, "Nanostructures for photovoltaics," Materials Science and Engineering: R: Reports, Volume 62, Issue 6, Pages 175–189, 10 November 2008.
15:3015:30, 29 January 2013 Difference History +967‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Utilization of Direct and Diffuse Sunlight in a Dye-Sensitized Solar Cell Silicon Photovoltaic Hybrid Concentrator System Greg D.Barber, Paul G.Hoertz, Seung-Hyun Anna Lee, Neal M.Abrams, Janine Mikulca, Thomas E.Mallouk, Paul Liska, Shaik M.Zakee
15:2715:27, 29 January 2013 Difference History +1,639‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Towards high-efficiency multi-junction solar cells with biologically inspired nanosurfaces Peichen Yu, Meng-Yih Chiu, Chia-Hua Chang, Chung-Yu Hong, Yu-Lin Tsai, Hau-Vei Han, Yu-Rue Wu, "Towards high-efficiency multi-junction solar cells with biol
15:2115:21, 29 January 2013 Difference History +1,384‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Plasmonics for improved photovoltaic devices Harry A.Atwater, Albert Polman, "Plasmonics for improved photovoltaic devices," Nature Materials 9, Pages 205–213, 2010.
15:1715:17, 29 January 2013 Difference History +932‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Super-High Efficiency Multijunction Photovoltaics For Solar Energy Harvesting Indranil Bhattacharya, "Super-High Efficiency Multijunction Photovoltaics For Solar Energy Harvesting," Electronic Theses, Treatises and Dissertations, Paper 4641, 2009.
15:1215:12, 29 January 2013 Difference History +2,388‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Super high-efficiency multi-junction and concentrator solar cells Masafumi Yamaguchia, Tatsuya Takamotob, Kenji Arakia, "Super high-efficiency multi-junction and concentrator solar cells," Solar Energy Materials and Solar Cells, Volume 90, Issues
14:0714:07, 29 January 2013 Difference History +1,181‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Spectral response and energy output of concentrator multijunction solar cells Geoffrey S. Kinsey1, Kenneth M.Edmondson, "Spectral response and energy output of concentrator multijunction solar cells," Progress in Photovoltaics: Research and Applic
14:0514:05, 29 January 2013 Difference History +1,980‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Modeling the effect of varying spectra on multi junction A-SI solar cells Hanan Al Buflasa, Ralph Gottschalg, Tom Betts, "Modeling the effect of varying spectra on multi junction A-SI solar cells," Desalination, Volume 209, Issues 1–3, Pages 78
14:0214:02, 29 January 2013 Difference History +866‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Advances in High-Efficiency III-V Multijunction Solar Cells Richard R.King, Daniel C.Law, Kenneth M.Edmondson, Christopher M.Fetzer, Geoffrey S.Kinsey, Hojun Yoon, Dimitri D.Krut, James H.Ermer, Raed A.Sherif, and Nasser H.Karam, "Advances in High
13:5713:57, 29 January 2013 Difference History +2,535‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* High-efficiency space and terrestrial multijunction solar cells through bandgap control in cell structures R.R.King, "High-efficiency space and terrestrial multijunction solar cells through bandgap control in cell structures," Photovoltaic Special
13:5313:53, 29 January 2013 Difference History +1,478‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Spectral response and energy output of concentrator multijunction solar cells Geoffrey S. Kinsey1, Kenneth M.Edmondson, "Spectral response and energy output of concentrator multijunction solar cells," Progress in Photovoltaics: Research and Applic
13:4913:49, 29 January 2013 Difference History +843‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Future technology pathways of terrestrial III–V multijunction solar cells for concentrator photovoltaic systems Daniel C.Lawa, R.R. Kinga, H.Yoona, M.J.Archerb, A.Bocaa, C.M.Fetzera, S.Mesropiana, T.Isshikia, M.Haddada, K.M.Edmondsona, D.Bhusari
13:4413:44, 29 January 2013 Difference History +1,484‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Multijunction Photovoltaic Technologies for High-Performance Concentrators Robert McConnell NREL, Golden, Martha Symko-Davies, Mutijunction Photovoltaic Technologies for High-Performance Concentrators," Photovoltaic Energy Conversion, Conference R
13:3813:38, 29 January 2013 Difference History +1,344‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Band-Gap-Engineered Architectures for High-Efficiency Multijunction Concentrator Solar Cells R.R.King, A.Boca, W.Hong, X.-Q.Liu, D.Bhusari, D.Larrabee, K.M.Edmondson, D.C.Law, C.M.Fetzer, S.Mesropian, N.H.Karam, "Band-Gap-Engineered Architectures
13:3213:32, 29 January 2013 Difference History +1,087‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* 40% efficient metamorphic GaInP/GaInAs/Ge multijunction solar cells R.R.King, D.C.Law, K.M.Edmondson, C.M.Fetzer, G.S.Kinsey, H.Yoon, R.A.Sherif, and N.H.Karam, "40% efficient metamorphic GaInP/GaInAs/Ge multijunction solar cells," Applied Physics
13:2313:23, 29 January 2013 Difference History +1,110‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Transmission of solar radiation by clouds over snow and ice surfaces a parameterization in terms of optical depth solar zenith angle and surface albedo Melanie F.Fitzpatrick, Richard E.Brandt, Stephen G.Warren, "Transmission of solar radiation by

16:3416:34, 27 January 2013 Difference History +1,436‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Transmission of solar radiation by clouds over snow and ice surfaces a parameterization in terms of optical depth solar zenith angle and surface albedo Melanie F.Fitzpatrick, Richard E.Brandt, Stephen G.Warren, "Transmission of solar radiation by
16:3316:33, 27 January 2013 Difference History +726‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Multi-Junction Solar Cell Spectral Tuning with Quantum Dots Ryne P. Raffaelle, Samar Sinharoy, John Andersen, David M.Wilt, Sheila G.Bailey, "Multi-Junction Solar Cell Spectral Tuning with Quantum Dots," Photovoltaic Energy Conversion, Conference
16:3316:33, 27 January 2013 Difference History +804‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* High-efﬁciency quadruple junction solar cells using OMVPE with inverted metamorphic device structures M.Stan, D.Aiken, B.Cho, A.Cornfeld, V.Ley, P.Patel, P.Sharps, T.Varghese, "High-efﬁciency quadruple junction solar cells using OMVPE with inv
16:3216:32, 27 January 2013 Difference History +815‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Experimental Results From Performance Improvement and Radiation Hardening of Inverted Metamorphic Multijunction Solar Cells P.Patel, D.Aiken, A.Boca, B.Cho, "Experimental Results From Performance Improvement and Radiation Hardening of Inverted Met
16:3116:31, 27 January 2013 Difference History +980‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ →‎Evolution of the high efﬁciency triple junction solar cell for space power Stan.M, Aiken.D, Cho.B, "Evolution of the high efﬁciency triple junction solar cell for space power," Photovoltaic Specialists Conference, 2008. PVSC '08. 33rd IEEE.
16:3016:30, 27 January 2013 Difference History +688‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* Current-matched triple-junction solar cell reaching 41.1% conversion efficiency under concentrated sunlight Guter, Wolfgang, "Current-matched triple-junction solar cell reaching 41.1% conversion efficiency under concentrated sunlight," Applied Phy
16:2916:29, 27 January 2013 Difference History +1,246‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces/Literature review ‎ /* A review of snow and ice albedo and the development of a new physically based broadband albedo parameterization Alex S. Gardner, Martin, “A review of snow and ice albedo and the development of a new physically based broadband albedo parameteriza

20:0220:02, 24 January 2013 Difference History −22‎ Bandgap engineering of multijunction photovoltaic cells for spectral albedo of artificial surfaces ‎ →‎see also

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