Optimization of highly efficient and eco-friendly EA-substituted tin based perovskite solar cell with different hole transport material

In this study, an EA-substituted tin based perovskite solar cell with different hole transport material (PEDOT: PSS, Cu2O, CuI, CZTSe) have been investigated using device simulation software. The effects of absorber thickness, defect density, operating temperature, J–V characteristics, and Quantum efficiency considered to enhance the performance cell. To confirm feasibility validate all results were compared reported experiment data. According experimental work on (FA0.9EA0.1)0.98EDA0.01SnI3 layer, a maximum 13% is achieved PEDOT: PSS as HTM. Whereas we further optimized parameters found superior response (Voc = 0.8851 V, Jsc 27.24 mA/cm2, FF 77.91%, PCE 18.78%) while opted Cu2O material. This structure FTO/Cu2O/(FA0.9EA0.1)0.98EDA0.01SnI3/IDL/PCBM/C60/Au provides more efficient, reliable solution for replacing lead-based study will aid researcher in reasonable choice materials predict behavior high cells before undergoing fabrication process.