Study of the Temperature Coefficient of the Main Photoelectric Parameters of Silicon Solar Cells with Various Nanoparticles

Authors J. Gulomov , R. Aliev
Affiliations

Andijan State University, 129, Universitet St., 170100 Andijan, Uzbekistan

Е-mail jasurbekgulomov@yahoo.com
Issue Volume 13, Year 2021, Number 4
Dates Received 21 July 2021; revised manuscript received 04 August 2021; published online 20 August 2021
Citation J. Gulomov, R. Aliev, J. Nano- Electron. Phys. 13 No 4, 04033 (2021)
DOI https://doi.org/10.21272/jnep.13(4).04033
PACS Number(s) 85.60.Bt, 78.20.Bh, 73.61.Ga
Keywords Modeling (20) , Nanoparticle (77) , Solar cell (51) , Silicon (58) , Temperature coefficient.
Annotation

It is significant to improve the photoelectric parameters of thin-film silicon-based solar cells. There are some methods to enhance the optical and electrical properties of thin-film silicon-based solar cells. One of them is to insert various metal nanoparticles into a thin-film solar cell. Nanoparticles have an effect on the photoelectric parameters, also on their temperature coefficients. In this work, the effect of Au, Ag, Pt, Ti, Co, Al, Cu nanoparticles on the temperature coefficient of the photoelectric parameters of a thin film silicon-based solar cell was studied. The calculations were performed for temperatures ranging from 250 to 350 K. In this research, it was found that the open-circuit voltage of a solar cell with Pt and Ti nanoparticles changes by 0.4 % when the temperature changes by 1 K. Besides, it was revealed that the short-circuit current of a solar cell with Ag nanoparticles has the greatest effect on the temperature coefficient, that is 6.3 times.

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