Biblio
“Analytical approximation of effective surface recombination velocity of dielectric-passivated p-type silicon”, Solid-State Electronics, vol. 45, no. 9, pp. 1549 - 1557, 2001.
, “Analysis of the recombination mechanisms of a silicon solar cell with low bandgap-voltage offset”, Journal of Applied Physics, vol. 121, no. 20, p. 205704, 2017.
, “Analysis of the interaction of a laser pulse with a silicon wafer: Determination of bulk lifetime and surface recombination velocity”, Journal of Applied Physics, vol. 61, pp. 2282-2293, 1987.
, “Analysis of tandem solar cell efficiencies under {AM1.5G} spectrum using a rapid flux calculation method”, Progress in Photovoltaics: Research and Applications, vol. 16, pp. 225–233, 2008.
, “The American Mineralogist Crystal Structure Database”, American Mineralogist, vol. 88, 2003.
, “Aluminium Back Surface Field in Buried Contact Solar Cells”, University of New South Wales, 2000.
, “The Action of Light on Selenium”, Proceedings of the Royal Society, London, vol. A25, p. 113, 1877.
, “Accurate measurements of the silicon intrinsic carrier density from 78 to 340 K”, Journal of Applied Physics, vol. 74, no. 5, p. 3293, 1993.
, “Accuracy of Analytical Expressions for Solar Cell Fill Factors”, Solar Cells, vol. 7, pp. 337-340, 1982.
, “The absorption of radiation in solar stills”, Solar Energy, vol. 12, pp. 333 - 346, 1969.
, “Absolutwerte der optischen Absorptionskonstanten von Alkalihalogenidkristallen im Gebiet ihrer ultravioletten Eigenfrequenzen”, Annalen der Physik, vol. 411, no. 4, pp. 434 - 464, 1934.
, “7000 High Efficiency Cells for a Dream”, Progress in Photovoltaics: Research and Applications, vol. 2, pp. 143 - 152, 1994.
, “24.5% efficiency PERT silicon solar cells on SEH MCZ substrates and cell performance on other SEH CZ and FZ substrates”, Solar Energy Materials and Solar Cells, vol. 66, pp. 27 - 36, 2001.
, “20,000 PERL silicon cells for the "1996 World Solar Challenge" solar car race”, Progress in Photovoltaics: Research and Applications, vol. 5, pp. 269–276, 1997.
, “19.8% efficient "honeycomb" textured multicrystalline and 24.4% monocrystalline silicon solar cells”, Applied Physics Letters, vol. 73, pp. 1991-1993, 1998.
, “19.8% Efficient Multicrystalline Silicon Solar Cells with Honeycomb Textured Front Surface”, 2nd World Conference and Exhibition on Photovoltaic Solar Energy Conversion. Vienna, Austria, 1998.
, “18% efficient polycrystalline silicon solar cells”, Twenty First IEEE Photovoltaic Specialists Conference, vol. 1. pp. 678-680, 1990.
, “16.7% efficient, laser textured, buried contact polycrystalline silicon solar cell”, Applied Physics Letters, vol. 55, p. 2363, 1989.
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