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D. Chauhan, Satsangi, V. R., Dass, S., and Shrivastav, R., Preparation and characterization of nanostructured CuO thin films for photoelectrochemical splitting of water, Bulletin of Materials Science, vol. 29, p. 709, 2006.
H. Katagiri, Sasaguchi, N., Hando, S., Hoshino, S., Ohashi, J., and Yokota, T., Preparation and evaluation of Cu2ZnSnS4 thin films by sulfurization of E-B evaporated precursors, Solar Energy Materials and Solar Cells, vol. 49, pp. 407 - 414, 1997.
R. Chandramohan, Sanjeeviraja, C., and Mahalingam, T., Preparation of Zinc Selenide Thin Films by Electrodeposition Technique for Solar Cell Applications, physica status solidi (a), vol. 163, no. 2, pp. R11 - R12, 1997.
L. Ehm, Knorr, K., Dera, P., Krimmel, A., Bouvier, P., and Mezouar, M., Pressure-induced structural phase transition in the IV–VI semiconductor SnS, Journal of Physics: Condensed Matter, vol. 16, no. 21, pp. 3545 - 3554, 2004.
C. D. Lokhande et al., Process and characterisation of chemical bath deposited manganese sulphide (MnS) thin films, Thin Solid Films, vol. 330, no. 2, pp. 70 - 75, 1998.
T. Feurer et al., Progress in thin film CIGS photovoltaics–Research and development, manufacturing, and applications, Progress in Photovoltaics: Research and Applications, vol. 25, pp. 645–667, 2017.
S. Furuseth, Kjekshus, A., Niklasson, R. J. V., Brunvoll, J., and Hinton, M., On the Properties of alpha-MnS and MnS2., Acta Chemica Scandinavica, vol. 19, pp. 1405 - 1410, 1965.
S. Bowden and Rohatgi, A., Rapid and Accurate Determination of Series Resistance and Fill Factor Losses in Industrial Silicon Solar Cells, in 17th European Photovoltaic Solar Energy Conference, Munich, Germany, 2001.
M. Y. Levy and 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., and Heiser, G., Reassessment of the intrinsic carrier density in crystalline silicon in view of band-gap narrowing, Journal of Applied Physics, vol. 93, no. 3, p. 1598, 2003.
R. Hezel, Recent progress in MIS solar cells, Progress in Photovoltaics: Research and Applications, vol. 5, pp. 109-120, 1997.
M. Nakamura et al., Recent R&D progress in solar frontier's small-sized Cu (InGa)(SeS)2 solar cells, in 2014 IEEE 40th Photovoltaic Specialist Conference (PVSC), 2014.
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 and Swanson, R. M., Recombination in highly injected silicon, Electron Devices, IEEE Transactions on, vol. 34, pp. 1380 - 1389, 1987.
A. Cuevas, The Recombination Parameter J0, Energy Procedia, vol. 55, pp. 53 - 62, 2014.
W. R. Thurber, Mattis,, Liu,, and 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., and 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., and Filliben, J. J., Resistivity-Dopant Density Relationship for Phosphorus-Doped Silicon, Journal of The Electrochemical Society, vol. 127, pp. 1807-1812, 1980.
C. A. Gueymard, REST2: High-performance solar radiation model for cloudless-sky irradiance, illuminance, and photosynthetically active radiation – Validation with a benchmark dataset, Solar Energy, vol. 82, no. 3, pp. 272 - 285, 2008.
D. PYSCH, Mette, A., and 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 and 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., and Robins, B., The Role of Photovoltaics in Reducing Greenhouse Gas Emissions. Canberra: Australian Government Publishing Service, 1991.
S. Anandan, Wen, X., and Yang, S., Room temperature growth of CuO nanorod arrays on copper and their application as a cathode in dye-sensitized solar cells, Materials Chemistry and Physics, vol. 93, no. 1, pp. 35 - 40, 2005.