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Optimization of heterostructure thickness of perovskite solar cells using numerical modeling

Abstract

Optimization of heterostructure thickness of perovskite solar cells using numerical modeling

Sayenko A.V., Malyukov S.P., Klunnikova Y.V., Paliy A.V.

Incoming article date: 07.12.2017

Numerical physical-topological modeling is carried out to optimize the thickness of perovskite solar cells on the basis of the heterostructure TiO2 / CH3CN3PbI3-xClx / Spiro-OMeTAD. The results of the conducted studies showed that the optimum values ​​of the thicknesses of TiO2 and CH3CN3PbI3-xClx heterostructure films, which make it possible to obtain a high coefficient of efficiency of the solar cell, lie in relatively narrow limits. The carried out researches have shown the possibility of effective use of numerical physical-topological modeling for the development of perovskite solar cells, taking into account the features of photogeneration, recombination and transport of charge carriers in real heterostructures.

Keywords: Solar cell, perovskite, titanium dioxide, heterostructure, numerical simulation.