Cetrimonium bromide and potassium thiocyanate assisted post-vapor treatment approach to enhance power conversion efficiency and stability of FAPbI ₃ perovskite solar cells

Formamidinium lead iodide (FAPbI ₃) is the most promising perovskite material for producing efficient perovskite solar cells (PSCs). Here, we develop a facile method to obtain an α-phase FAPbI ₃ layer with passivated grain boundaries and weakened non-radiative recombination. For this aim, during the FAPbI ₃ fabrication process, cetrimonium bromide + 5% potassium thiocyanate (CTABr + 5% KSCN) vapor post-treatment is introduced to remove non-perovskite phases in the FAPbI ₃ layer. Incorporation of CTA ⁺ along with SCN ⁻ ions induces FAPbI ₃ crystallization and stitch grain boundaries, resulting in PSCs with lower defect losses. The vapor-assisted deposition increases the carriers' lifetime in the FAPbI ₃ and facilitates charge transport at the interfacial perovskite/hole transport layer via a band alignment phenomenon. The treated α-FAPbI ₃ layers bring an excellent PCE of 22.34%, higher than the 19.48% PCE recorded for control PSCs. Besides, the well-oriented FAPbI ₃ and its higher hydrophobic behavior originating from CTABr materials lead to improved stability in the treated PSCs.

Vapor treatment approach to enhance the power conversion efficiency and stability of FAPbI ₃ based perovskite solar cell.