Bi and Sn Doping Improved the Structural, Optical and Photovoltaic Properties of MAPbI(3)-Based Perovskite Solar Cells

One of the most amazing photovoltaic technologies for the future is the organic–inorganic lead halide perovskite solar cell, which exhibits excellent power conversion efficiency (PCE) and can be produced using a straightforward solution technique. Toxic lead in perovskite can be replaced by non-toxic alkaline earth metal cations because they keep the charge balance in the material and some of them match the Goldschmidt rule’s tolerance factor. Therefore, thin films of MAPbI(3), 1% Bi and 0%, 0.5%, 1% and 1.5% Sn co-doped MAPbI(3) were deposited on FTO-glass substrates by sol-gel spin-coating technique. XRD confirmed the co-doping of Bi–Sn in MAPbI(3). The 1% Bi and 1% Sn co-doped film had a large grain size. The optical properties were calculated by UV-Vis spectroscopy. The 1% Bi and 1% Sn co-doped film had small E(g), which make it a good material for perovskite solar cells. These films were made into perovskite solar cells. The pure MAPbI(3) film-based solar cell had a current density (J(sc)) of 9.71 MA-cm(−2), its open-circuit voltage (V(oc)) was 1.18 V, its fill factor (FF) was 0.609 and its efficiency (η) was 6.98%. All of these parameters were improved by the co-doping of Bi–Sn. The cell made from a co-doped MAPbI(3) film with 1% Bi and 1% Sn had a high efficiency (10.03%).