Biblio

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Conference Paper
W. Guang-Pu et al., Investigation on SnS film by RF sputtering for photovoltaic application, in 1994 IEEE 1st World Conference on Photovoltaic Energy Conversion - WCPEC (A Joint Conference of PVSC, PVSEC and PSEC)Proceedings of 1994 IEEE 1st World Conference on Photovoltaic Energy Conversion - WCPEC (A Joint Conference of PVSC, PVSEC and PSEC), Waikoloa, HI, USA, 1994.
Conference Proceedings
S. Narayanan et al., 18% efficient polycrystalline silicon solar cells, Twenty First IEEE Photovoltaic Specialists Conference, vol. 1. pp. 678-680, 1990.
J. Zhao, Wang, A., and Green, M. A., 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.
D. S. Ruby, Yang, P., Zaidi, S., Brueck, S., Roy, M., and Narayanan, S., Improved Performance of Self-Aligned, Selective-Emitter Silicon Solar Cells, 2nd World Conference and Exhibition on Photovoltaic Solar Energy Conversion. Vienna, Austria, 1998.
J. Zhao, A., W., Dai, X., Green, M. A., and Wenham, S. R., Improvements in Silicon Solar Cell Performance, 22nd IEEE PV Specialists Conference. pp. 399-402, 1991.
Journal Article
J. C. Zolper, Narayanan, S., Wenham, S. R., and Green, M. A., 16.7% efficient, laser textured, buried contact polycrystalline silicon solar cell, Applied Physics Letters, vol. 55, p. 2363, 1989.
J. Zhao, Wang, A., Green, M. A., and Ferrazza, F., 19.8% efficient "honeycomb" textured multicrystalline and 24.4% monocrystalline silicon solar cells, Applied Physics Letters, vol. 73, pp. 1991-1993, 1998.
J. Zhao et al., 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.
J. Zhao et al., 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.
J. Zhao, Wang, A., and Green, M. A., 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.
E. P. S. Tan et al., Crystallinity and surface effects on Young’s modulus of CuO nanowires, Applied Physics Letters, vol. 90, no. 16, p. 163112, 2007.
W. Wang et al., Device characteristics of CZTSSe thin-film solar cells with 12.6% efficiency, Advanced Energy Materials, vol. 4, 2014.
S. - H. Wei, Zhang, S. B., and Zunger, A., Effects of Na on the electrical and structural properties of CuInSe2, Journal of Applied Physics, vol. 85, pp. 7214–7218, 1999.
S. - H. Wei, Zhang, S. B., and Zunger, A., Effects of Na on the electrical and structural properties of CuInSe2, Journal of Applied Physics, vol. 85, pp. 7214–7218, 1999.
D. Rudmann, Bilger, G., Kaelin, M., Haug, F. - J., Zogg, H., and Tiwari, A. N., Effects of NaF coevaporation on structural properties of Cu (In, Ga) Se2 thin films, Thin Solid Films, vol. 431, pp. 37–40, 2003.
A. B. Sproul, Green, M. A., and Zhao, J., Improved value for the silicon intrinsic carrier concentration at 300 K, Applied Physics Letters, vol. 57, p. 255, 1990.
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.
E. Zerubavel, The Standardization of Time: A Sociohistorical Perspective, American Journal of Sociology, vol. 88, pp. 1-23, 1982.
P. K. Nair, Nair, M. T. S., Pathirana, H. M. K. K., Zingaro, R. A., and Meyers, E. A., Structure and Composition of Chemically Deposited Thin Films of Bismuth Sulfide and Copper Sulfide Effect on Optical and Electrical Properties, Journal of The Electrochemical Society, vol. 140, pp. 754–759, 1993.
P. Zwolenski, Tobola, J., and Kaprzyk, S., A Theoretical Search for Efficient Dopants in Mg2X (X = Si, Ge, Sn) Thermoelectric Materials, Journal of Electronic Materials, vol. 40, no. 5, pp. 889 - 897, 2011.