SCAPS-1D ANALYSIS OF NON-TOXIC LEAD-FREE MASnI3 PEROVSKITE-BASED SOLAR CELL USING INORGANIC CHARGE TRANSPORT LAYERS

Perovskite solar cells (PSCs) have gained a lot of attention due to their high efficiency and low cost. In this research paper, a methylammonium tin iodide (CH3NH3SnI3) based solar cell was simulated using a one-dimensional solar cell capacitance simulation (SCAPS-1D) tool. The SCAPS-1D tool is based on Poisson and the semiconductor equations. After thorough investigation, the initial device presents the following parameters; power conversion efficiency (PCE)=15.315%, fill factor (FF)=64.580%, current density (J(sc))=29.152 mA/cm(2,) and open circuit voltage (V-oc)=0.813 V. The effect of absorber and ETL thicknesses were explored systematically. The performance of the simulated device was significantly influenced by the thickness of the absorber and ETL. The optimized absorber thickness was 0.5 mu m and the ETL thickness was 0.02 mu m, giving rise to an optimized PCE of 15.411%, FF of 63.525%, J(sc) of 29.812 mA/cm(2), and V-oc of 0.814 V. Additionally, the effect of temperature on the optimized device was evaluated and found that it affects the performance of the device. This model shows the prospect of CH3NH3SnI3 as a perovskite material to produce toxic-free environment-friendly solar cells with high efficiency.