Geodesic
Production route of solar cells based on thin films of chalcogenides
Problemy fiziki, matematiki i tehniki, no. 3 (2016), pp. 23-26.

Voir la notice de l'article provenant de la source Math-Net.Ru

Route production of thin-film solar cells is presented and justified. This route allows fulfilling the requirements for the quality of the resulting materials of the design Mo/absorber layer/CdS/ZnO/Al-Ni.
Mots-clés : $\mathrm{Cu_xIn_xZn_{2-2x}Se_2}$
Keywords: thin films, solar cells, physical characteristics, efficiency. 
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V. V. Khoroshko. Production route of solar cells based on thin films of chalcogenides. Problemy fiziki, matematiki i tehniki, no. 3 (2016), pp. 23-26. http://geodesic.mathdoc.fr/item/PFMT_2016_3_a2/

[1] V. F. Gremenok, M. S. Tivanov, V. B. Zalecskii, Solnechnye elementy na osnove poluprovodnikovykh materialov, Izd. Tsentr BGU, Minsk, 2007, 222 pp.

[2] C. S. Tao, J. Jiang, M. Tao, “Natural resource limitations to terawatt-scale solar cells”, Solar Energy Materials Solar Cells, 95:12 (2011), 3176–3180 | DOI

[3] V. P. Afanasev, E. I. Terukov, A. A. Sherchenkov, Tonkoplenochnye solnechnye elementy na osnove kremniya, 2-e izd., Izd-vo SPbGETU «LETI», Sankt-Peterburg, 2011

[4] T. Kouts, Dzh. Mikin (red.), Sovremennye problemy poluprovodnikovoi fotoenergetiki, Mir, M., 1988

[5] M. A. Green, K. Emery, Y. Hishikawa, W. Warta, “Solar cell efficiency tables (version 37)”, Progress in Photovoltaics: Research and Applications, 2010, no. 19, 84–92

[6] A. Goodrich et al., “CIGS Road Map. NREL technical report”, 35rd IEEE Photovoltaic Specialists Conference (San Diego, California, 2011), 45–50

[7] I. N. Tsyrelchuk, V. F. Gremenok, V. V. Khoroshko, “Strukturno-morfologicheskie svoistva sloev ZnSe/(Cu-In), poluchennykh termicheskim ispareniem”, Izvestiya Gomelskogo gosudarstvennogo universiteta im. F. Skoriny, 2011, no. 4(67), 14–18 | MR

[8] V. V. Khoroshko, I. N. Tsyrelchuk, V. F. Gremenok, A. N. Petlitskii, “Solnechnye elementy s $\mathrm{Cu_xIn_xZn_{2-2x}Se_2}$ pogloschayuschim sloem”, Problemy fiziki, matematiki i tekhniki, 2015, no. 4(25), 33–36

[9] V. V. Khoroshko, I. N. Tsyrelchuk, V. F. Gremenok, V. V. Shatalova, “Strukturnye i morfologicheskie svoistva tonkikh plenok $\mathrm{Cu_xIn_xZn_{2-2x}Se_2}$, poluchennykh na gibkikh podlozhkakh”, Doklady BGUIR, 2015, no. 8(94), 71–75