Optimisation and Analysis of the Perovskite Solar Cell
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Abstract
The search for better conversion efficiency and the low production cost of
solar cells has sparked the interest of several researchers with the aim to find
new materials to meet the global challenges of the energy matrix [1, 2, 3].
This has made the inorganic halide, Cesium Lead Iodide (CsP bI3), one of the
most promising due to its stability and, on the other hand, better efficiency
compared to other perovskites [4, 5]. In this study, a perovskite solar cell was
optimised with a configuration featuring CsP bI3 as the active layer, T iO2
responsible for electron transport (ETL), Spiro-OMeTAD responsible for the
gaps (HTL). The SCAPs-1D software was used for the simulations where the
physical parameters were introduced, these parameters were deduced from
cross-referencing various studies of experimental and published literature. As
a result of this investigation, a significant increase in the cell’s performance
was obtained. The configuration of the perovskite cell structure can be well
optimised to increase conversion efficiency and make them more preferred in
the market.