ANALYSIS OF THE ROLE OF NANO-OBJECTS IN THE CHEAPER SILICON SOLAR CELLS
( Pp. 14-17)

More about authors
Jalalov Temur Asfandiyarovich d-r fiz.-mat. nauk, starshiy prepodavatel
Tashkent Institute of Information Technologies. Tashkent, Uzbekistan Imamov Erkin Z.
Ташкентский университет информационных технологий имени Мухаммеда аль-Хорезмий (ТУИТ) Министерства по развитию информационных технологий и коммуникаций Республики Узбекистан
г. Ташкент, Республика Узбекистан Muminov Ramizulla A.
Физико-технический институт Научно-производственного объединения «Физика-Солнце» Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан Rakhimov Rustam Kh.
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan
Abstract:
The analysis of technological capabilities ensuring the reduction in the cost of solar cell parameters is carried out. The possibility and economic expediency of using as a substrate solar cells of technical silicon for a mass transformation of solar radiation into electricity is justified. The second contact material must be a nanoscale cluster from the family of lead chalcogenides (PbS, PbTl and PbSe). It is shown that the cheapening, stable and long-lasting functioning of solar panels is achieved when they consist of solar cells with fundamentally different and numerous contact structures (they must be created using a new technology with a combination of contacting semiconductors that is unconventional for solar energy - one of them is nano-different - macro material).
How to Cite:
Jalalov T.A., Imamov E.Z., Muminov R.A., Rakhimov R.K., (2017), ANALYSIS OF THE ROLE OF NANO-OBJECTS IN THE CHEAPER SILICON SOLAR CELLS. Computational Nanotechnology, 3 => 14-17.
Reference list:
Thomas M. Brenner, David A. Egger, Leeor Kronik, Gary Hodes David Cahen //Hybrid organic-inorganic perovskites: low-cost semiconductors with intriguing charge-transport properties Review Article // Nature Reviews Materials , Article number: 15007 Publishes online: 11 January 2016)
Imamov E.Z., Dzhalalov T.A., Muminov R.A., Rakhimov R.KH. //Otlichitel nye osobennosti kontaktnykh struktur s nanorazmernymi vklyucheniyami ot poluprovodnikovykh fotodiodov //Izdatel skiy dom YUR-AK J. Computational nanotechnology . №3-2016, p.p.196-202, ISSN 2313-223X.
V.M.Roshchin, M.V.Silibin. / Tekhnologiya materialov mikro-, opto- i nanoelektroniki. / V dvukh chastyakh. Iz-vo BINOM. Laboratornye zanyatiya, 2010. S. 189 i 180
V.L.Bonch-Bruevich, S.G.Kalashnikov. Fizika poluprovodnikov //M.Nauka. 1977.
Dzh. Zayman //Printsipy teorii tverdogo tela /Iz-vo MIR. Moskva,1974.S.573
B.I. SHklovskiy., A.L.Efros /Elektronnye svoystva legirovannnykh poluprovodnikov // monografiya.-M.:Nauka.Gl.red fizmat lit. 1979, 416 s.
Tipler P.A., Lluellin R.A. /Sovremennaya fizika: v dvukh tomakh T.1-2, Per s angl.-Mir,2007 g. S. 508 i 416
A.A.Eliseev, A.V.Lukashin. Funktsional nye nanomaterialy /pod red.YU.D.Tret yakova - M. FIZMATLIT, 2010. 456 s.
Gusev A.I. Nanomaterialy, nanostruktury, nanotekhnologii. Moskva. Fizmatlit. 2009.
V.P.Dragunov, I.G.Neizvestnyy, V.A.Gridchin. Osnovy nanoelektroniki //M. Logos. 2006
I.M.TSidil kovskiy /Elektrony i dyrki v poluprovodnikakh / Moskva.1972. Iz-vo Nauka . S. 640
H.Haken /Synergetics /Springer, Berlin-Heidelberg. 1997.
Keywords:
solar energy, solar cell, nanocluster, quantum dots, nanoscale contact structure, nanoscale "p-n junction", solar energy, solar cell, nanoinclusions, quantum dots, nanoscale contact structure, nanoscale "p-n junction".


Related Articles

Nanotechnology Pages: 11-25 DOI: 10.33693/2313-223X-2023-10-3-11-25 Issue №23683
Prospects of Solar Energy: The Role of Modern Solar Technologies in the Production of Hydrogen
solar energy hydrogen alternative energy source economic inefficiency profitability
Show more
NANOSTRUCTURED MATERIALS Pages: 196-202 Issue №7894
THE DIFFERENCE BETWEEN THE CONTACT STRUCTURE WITH NANOSIZE INCLUSIONS FROM THE SEMICONDUCTOR PHOTODIODES
solar energy solar cell nanocluster quantum dots nanoscale contact structure
Show more
NANOSTRUCTURED MATERIALS Pages: 203-207 Issue №7894
THE DIFFERENCE BETWEEN THE CONTACT STRUCTURE WITH NANOSIZE INCLUSIONS FROM THE SEMICONDUCTOR PHOTODIODES
solar energy solar cell nanoinclusions quantum dots nanoscale contact structure
Show more
7. NANOSTRUCTURED MATERIALS Pages: 50-51 Issue №9439
PROPERTIES OF GaAs/AlGaAs HETEROPHOTOTRANSFORMATORS WITH HOLOGRAPHIC CONCENTRATORS
solar cell semiconductor gallium arsenide spectral range short-circuit current
Show more
4. ENERGY OF HEAT TECHNOLOGIES AND AUTOMATION Pages: 143-146 Issue №8242
DEVELOPMENT AND RESEARCH OF STEAM GENERATORS RECEIVERS OF SOLAR HEAT POWER INSTALLATIONS
the boiling point of water solar energy the concentration of solar radiation steam boiler superheated steam
Show more
MATERIALS SCIENCE AND MATERIALS TECHNOLOGY Pages: 113-117 Issue №7537
Optical-geometric and optical-energy characteristics of independent solar installations for lighting a specific area within a building
solar power plant solar radiation optical-geometric and optical-energy characteristics automatic tracking system solar energy
Show more
8. PLASMA, HIGH FREQUENCY, MICROWAVE AND LASER TECHNOLOGIES Pages: 56-60 Issue №9439
UNIQUE OPPORTUNITY TO CREATE CHEAP BUT EFFECTIVE SILICON SOLAR CELLS
solar energy solar cell nanocluster quantum dots nanoscale contact structure
Show more
ENERGY INDUSTRY AND AUTOMATION Pages: 118-121 Issue №7537
Experimental results automatic system of tracking for independent concentrators of sunlight
Solar power plant automatic tracking system solar energy Autonomous combined solar installation
Show more
8. PLASMA, HIGH FREQUENCY, MICROWAVE AND LASER TECHNOLOGIES Pages: 61-64 Issue №9439
UNIQUE OPPORTUNITY TO CREATE CHEAP BUT EFFECTIVE SILICON SOLAR CELLS
solar energy solar cell nanoinclusions quantum dots nanoscale contact structure
Show more
Elements of Computing Systems Pages: 128-137 DOI: 10.33693/2313-223X-2023-10-1-128-137 Issue №22811
Atomic and electronic structure of quantum dots on the basis of CdSe
nanoparticles cadmium selenide quantum dots energy gap luminescence
Show more