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Computational nanotechnology, 2018, Issue 3, Pages 85–90 (Mi cn205)  
05.14.00. POWER
05.14.08 POWER STATIONS ON THE BASIS RENEWABLE ENERGY

Solar elements based on noncrystallic silicon with nanostructured impacts

T. A. Djalalova, E. Z. Imamova, R. A. Muminovb, H. Sabirovb, Sh. Sh. Atoevb

a Tashkent Institute of Information Technologies. Tashkent, Uzbekistan
b Physico-Technical Institute of the SPA «Physics-Sun», Academy of Sciences of Uzbekistan. Tashkent, Uzbekistan
Full-text PDF (475 kB)
Abstract: The article considers new physical models, technological methods for the formation of high-efficiency cheap solar cells based on non-crystalline silicon with nanostructured impregnations, in particular, nanoheteroclausters with characteristic contact properties.The features of the electrophysical and optical properties of an individual nanodimensional $p-n$-junction, the effective absorption spectrum of solar radiation have been studied. In general, the efficiency factor of a solar cell based on non-crystalline silicon with nanostructured impregnations was estimated.
Keywords: solar cell, spectrum, silicon, nanotechnology, $p-n$-junction, nanoheterostructure, nanoclusters, volt-ampere characteristic.
Document Type: Article
Language: English
Citation: T. A. Djalalov, E. Z. Imamov, R. A. Muminov, H. Sabirov, Sh. Sh. Atoev, “Solar elements based on noncrystallic silicon with nanostructured impacts”, Comp. nanotechnol., 2018, no. 3, 85–90
Citation in format AMSBIB
\Bibitem{DjaImaMum18}
\by T.~A.~Djalalov, E.~Z.~Imamov, R.~A.~Muminov, H.~Sabirov, Sh.~Sh.~Atoev
\paper Solar elements based on noncrystallic silicon with nanostructured impacts
\jour Comp. nanotechnol.
\yr 2018
\issue 3
\pages 85--90
\mathnet{http://mi.mathnet.ru/cn205}
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