Biblio

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T. Fuyuki, Kondo, H., Yamazaki, T., Takahashi, Y., and Uraoka, Y., Photographic surveying of minority carrier diffusion length in polycrystalline silicon solar cells by electroluminescence, Applied Physics Letters, vol. 86, p. 262108, 2005.
K. Hyun Yoon, Choi, W. Jin, and Kang, D. Heon, Photoelectrochemical properties of copper oxide thin films coated on an n-Si substrate, Thin Solid Films, vol. 372, pp. 250 - 256, 2000.
R. S. Mane, Sankapal, B. R., and Lokhande, C. D., Photoelectrochemical cells based on chemically deposited nanocrystalline Bi2S3 thin films, Materials Chemistry and Physics, vol. 60, no. 2, pp. 196 - 203, 1999.
E. F. Kingsbury and Ohl, R. S., Photoelectric Properties of Tonically Bombarded Silicon, Bell Systems Technical Journal, vol. 31, pp. 802-815, 1952.
B. Thomas, Ellmer, K., Bohne, W., Röhrich, J., Kunst, M., and Tributsch, H., Photoeffects in cobalt doped pyrite (FeS 2 ) films, Solid State Communications, vol. 111, no. 5, pp. 235 - 240, 1999.
R. H. Bube and Lind, E. L., Photoconductivity of Zinc Selenide Crystals and a Correlation of Donor and Acceptor Levels in II-VI Photoconductors, Phys. Rev., vol. 110, pp. 1040–1049, 1958.
S. M. Hu, Fahey, P., and Sutton, P., On Phosphorus Diffusion in Silicon, On Phosphorus Diffusion in Silicon, vol. 54, pp. 6912-6922, 1983.
R. Sekuler and Blake, R., Perception. New York: Alfred A. Knopf Inc, 1985.
D. B. Mitzi, Gunawan, O., Todorov, T. K., Wang, K., and Guha, S., The path towards a high-performance solution-processed kesterite solar cell, Solar Energy Materials and Solar Cells, vol. 95, pp. 1421 - 1436, 2011.
M. A. Green, The path to 25% silicon solar cell efficiency: History of silicon cell evolution, Progress in Photovoltaics: Research and Applications, vol. 17, pp. 183-189, 2009.
O
K. Sun et al., Over 9% Efficient Kesterite Cu 2 ZnSnS 4 Solar Cell Fabricated by Using Zn 1- x Cd x S Buffer Layer, Advanced Energy Materials, vol. 6, no. 12, p. 1600046, 2016.
M. J. O’Neil and McDanal, A. J., Outdoor measurement of 28% efficiency for a mini-concentrator module, National Center for Photovoltaics Program Review Meeting. Denver, USA, 2000.
C. J. Hages, Koeper, M. J., and Agrawal, R., Optoelectronic and material properties of nanocrystal-based \{CZTSe\} absorbers with Ag-alloying, Solar Energy Materials and Solar Cells, vol. 145, Part 3, pp. 342 - 348, 2016.
E. Y. Wang, Yu, F. T. S., Sims, V. L., Brandhorst, E. W., and Broder, J. D., Optimum Design of Anti-reflection coating for silicon solar cells, 10th IEEE Photovoltaic Specialists Conference. pp. 168-171, 1973.
H. B. Serreze, Optimizing Solar Cell Performance by Simultaneous Consideration of Grid Pattern Design and Interconnect Configurations, 13th IEEE Photovoltaic Specialists Conference. Washington, D.C., USA, pp. 1-8, 1978.
S. Adachi and Taguchi, T., Optical properties of ZnSe, Physical Review B, vol. 43, no. 12, pp. 9569 - 9577, 1991.
J. L. Merz, Kukimoto, H., Nassau, K., and Shiever, J. W., Optical Properties of Substitutional Donors in ZnSe, Physical Review B, vol. 6, no. 2, pp. 545 - 556, 1972.
M. A. Green and Keevers, M. J., Optical properties of intrinsic silicon at 300 K, Progress in Photovoltaics: Research and Applications, vol. 3, pp. 189 - 192, 1995.
S. Prabahar, Balasubramanian, V., Suryanarayanan, N., and Muthukumarasamy, N., Optical properties of copper indium diselenide thin films, Chalcogenide Letters, vol. 7, pp. 49–58, 2010.
C. Gümüş, Ulutaş, C., and Ufuktepe, Y., Optical and structural properties of manganese sulfide thin films, Optical Materials, vol. 29, no. 9, pp. 1183 - 1187, 2007.
K. R. McIntosh and Baker-Finch, S. C., OPAL 2: Rapid optical simulation of silicon solar cells, in 2012 IEEE 38th Photovoltaic Specialists Conference (PVSC)2012 38th IEEE Photovoltaic Specialists Conference, Austin, TX, USA, 2012.

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