SOLAR PHOTOCELLS
Dildora Toshpulatova
Department of Physic, Jizzakh State Pedagogical University Jizzakh, Uzbekistan
Saydulla Narkulov
Department of Physics, Jizzakh Polytechnic Institute, Jizzakh, Uzbekistan
Keywords: heterostructure, solar energy, alternative energy sources, electricity, photovoltaics, solar cell, monocrystalline and polycrystalline silicon, cascade elements, amorphous silicon, solar module.
Abstract
A comparative analysis of the prospects of creating ultra-thin, light and highly efficient solar cells based on AlGaAs/GaAs heterostructures has been provided. A micron - scale thinning of AlGaAs/GaAs heterostructures using efficient technological methods has been proposed, which has been shown to significantly increase the yield percentage of solar cells. As we know that the photocurrent flow in the element depends on constant temperature radiation.
References
Udalov N. S. Renewable energy. - Novosibirsk: Izd-vo NGTU, 2009. - 412 p. - S. 305-306.
Vissarionov V. I. Colnechnaya energetika : uchebnoe posobie dlya vuzov. - Moscow: Izdatelsky dom MEI, 2008. - 320 p. - S. 113-115.
Tashpulatova D. X. Physical percularities of heterostructured solar photoelements. Сборник материалов II международной научно-теоретической конференции «АКТУАЛЬНЫЕ ВОПРОСЫ ЕСТЕСТВЕННЫХ НАУК» 19 мая, 2021 г. Часть I, 15-18.
Mestnikov, A.E. Teplovaya zashchita zdaniy na severe: material, design, construction. A. E. Mestnikov, P. S. Abramova. M.: Izdatelstvo AVS, 2009. – 5 – 10 p.
Igamkulova Zilola Muradovna A Model of Photovoltaic Module of Solar Station. Eurasian Journal of Learning and Academic Teaching. 2023.
Tashpulatova D. X. Energy parameters of heterostructural solar Photocells. Academic Research in Educational Sciences. VOLUME 2 | ISSUE 11 | 2021