Biblio

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P
S. M. Hu, Fahey, P., y Sutton, P., «On Phosphorus Diffusion in Silicon», On Phosphorus Diffusion in Silicon, vol. 54, pp. 6912-6922, 1983.
E. F. Kingsbury y Ohl, R. S., «Photoelectric Properties of Tonically Bombarded Silicon», Bell Systems Technical Journal, vol. 31, pp. 802-815, 1952.
T. Fuyuki, Kondo, H., Yamazaki, T., Takahashi, Y., y Uraoka, Y., «Photographic surveying of minority carrier diffusion length in polycrystalline silicon solar cells by electroluminescence», Applied Physics Letters, vol. 86, p. 262108, 2005.
A. Goetzberger y Hoffmann, V. U., «Photovoltaic Solar Energy Generation», p. 232, 2005.
M. A. Green, «Photovoltaics: Coming of Age», 21st IEEE Photovoltaic Specialists Conference. Orlando, USA, pp. 1-8, 1990.
SERI, Photovoltaics for Residential Applications. Golden, Colorado: Solar Energy Research Institute, 1984.
J. G. Fossum, «Physical operation of back-surface-field silicon solar cells», IEEE Transactions on Electron Devices, vol. 24, pp. 322 - 325, 1977.
J. Nelson, «The Physics of Solar Cells», p. 355, 2003.
P. Würfel, «Physics of Solar Cells», p. 183, 2009.
R. Chandramohan, Sanjeeviraja, C., y Mahalingam, T., «Preparation of Zinc Selenide Thin Films by Electrodeposition Technique for Solar Cell Applications», physica status solidi (a), vol. 163, n.º 2, pp. R11 - R12, 1997.
Q
R. P. Feynman, QED : The Strange Theory of Light and Matter. 1985.
R. A. Sinton y Cuevas, A., «A Quasi-Steady-State Open-Circuit Voltage Method for Solar Cell Characterization», en 16th European Photovoltaic Solar Energy Conference, Glasgow, Scotland, 2000, pp. 1152–1155.
R
S. Bowden y Rohatgi, A., «Rapid and Accurate Determination of Series Resistance and Fill Factor Losses in Industrial Silicon Solar Cells», en 17th European Photovoltaic Solar Energy Conference, Munich, Germany, 2001.
M. Y. Levy y Honsberg, C. B., «Rapid and precise calculations of energy and particle flux for detailed-balance photovoltaic applications», Solid-State Electronics, vol. 50, pp. 1400-1405, 2006.
P. P. Altermatt, Schenk, A., Geelhaar, F., y Heiser, G., «Reassessment of the intrinsic carrier density in crystalline silicon in view of band-gap narrowing», Journal of Applied Physics, vol. 93, n.º 3, p. 1598, 2003.
R. Hezel, «Recent progress in MIS solar cells», Progress in Photovoltaics: Research and Applications, vol. 5, pp. 109-120, 1997.
A. E. Becquerel, «Recherches sur les effets de la radiation chimique de la lumiere solaire au moyen des courants electriques», Comptes Rendus de L´Academie des Sciences, vol. 9, pp. 145-149, 1839.
R. A. Sinton y Swanson, R. M., «Recombination in highly injected silicon», Electron Devices, IEEE Transactions on, vol. 34, pp. 1380 - 1389, 1987.
W. R. Thurber, Mattis,, Liu,, y Filliben, «The Relationship Between Resistivity and Dopant Density for Phosphorus- and Boron-Doped Silicon». U.S. Department of Commerce National Bureau of Standards, 1981.
W. R. Thurber, Mattis, R. L., Liu, Y. M., y Filliben, J. J., «Resistivity-Dopant Density Relationship for Boron-Doped Silicon», Journal of The Electrochemical Society, vol. 127, pp. 2291-2294, 1980.
W. R. Thurber, Mattis, R. L., Liu, Y. M., y Filliben, J. J., «Resistivity-Dopant Density Relationship for Phosphorus-Doped Silicon», Journal of The Electrochemical Society, vol. 127, pp. 1807-1812, 1980.
D. PYSCH, Mette, A., y Glunz, S. W., «A review and comparison of different methods to determine the series resistance of solar cells», Solar Energy Materials and Solar Cells, vol. 91, pp. 1698 - 1706, 2007.
F. Kasten y Young, A. T., «Revised optical air mass tables and approximation formula», Applied Optics, vol. 28, pp. 4735–4738, 1989.
A. W. Blakers, Green, M. A., Leo, T., Outhred, H., y Robins, B., The Role of Photovoltaics in Reducing Greenhouse Gas Emissions. Canberra: Australian Government Publishing Service, 1991.
S
M. A. Green, «Self-consistent optical parameters of intrinsic silicon at 300 K including temperature coefficients», Solar Energy Materials and Solar Cells, vol. 92, pp. 1305–1310, 2008.

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