EXPANSION OF THE EFFECTIVE ABSORPTION SPECTRUM IN SOLAR CELLS WITH NANOINCLUSIONS
( Pp. 155-157)

More about authors
Jalalov Temur Asfandiyarovich d-r fiz.-mat. nauk, starshiy prepodavatel
Tashkent Institute of Information Technologies. Tashkent, Uzbekistan Imamov Erkin Z. Dr. Sci. (Phys.-Math.), Professor; Department of Physics
Tashkent University of Information Technologies named after Muhammad al-Khwarizmi (TUIT) of the Ministry for Development of Information Technologies and Communications of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan Muminov Ramizulla A. Academician, Dr. Sci. (Phys.-Math.), Professor
Physical-Technical Institute of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan Rakhimov Rustam Kh. Dr. Sci. (Eng.); Head at the Laboratory No. 1
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan
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Abstract:
The possibility of expanding the effective absorption spectrum in noncrystalline solar cells using nanoinclusions is shown in the work. The effect of deep centers of local impurities and defects on the expansion of the effective absorption spectrum in solar cells based on a new contact structure is investigated. For example, expansion into the infrared region is due to absorption in impurity centers, and absorption into the ultraviolet region is due to the thermalization process of the resulting electron-hole pairs. the main difference between the proposed structure is that the appearance of electron-hole pairs arises in a region with an integrated electrostatic field. This factor significantly reduces the influence of recombination processes.
How to Cite:
Jalalov T.A., Imamov E.Z., Muminov R.A., Rakhimov R.K., (2018), EXPANSION OF THE EFFECTIVE ABSORPTION SPECTRUM IN SOLAR CELLS WITH NANOINCLUSIONS. Computational Nanotechnology, 1 => 155-157.
Reference list:
Stroshio M., Dutta M. Phonons in nanostructures / Trans. With the English / Ed. G.N. Zhizhina. M.: Fizmatlit, 2006. 320 p.
Imamov E.Z., Djalalov T.A., and Muminov R.A. Electrophysical Properties of the Nano-object-semiconductor new contact structure // ISSN 1063-7842, Technical physics. 2015. Vol. 60, No. 5, Rp. 740-745.
Djalalov T.A., Imamov E.Z., Muminov R.A. The Electrical Properties of a SC with Multiple Nano Scale p-n Transitions // Applied Solar Energy. 2014. Vol. 50, No. 4, Rp. 228-232.
Imamov E.Z., Djalalov T.A., Muminov R.A., Rakhimov H.Kh. The theoretical model of the new contact structure nanoobject-semicondactor // J. Computational nanotechnology . XII, 2015. № 4, 80 page. Rp. 58-63.
Imamov E.Z., Djalalov T.A., Muminov R.A., Rakhimov R.Kh. The Difference Between the Contact Structure With Nanosize Inclusions From the Semiconductor Photodiodes // J. Computational nanotechnology . 2016. № 3. Rp. 203-207.
Keywords:
impurity absorption, expansion of the spectrum, increase in efficiency, noncrystalline substrate, nanoinclusions.


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