Single‐step post‐production treatment of lead acetate precursor‐based perovskite using alkylamine salts for reduced grain‐boundary related film defects

Abstract: Powered by the worldwide efforts of research groups experienced in dyesensitized, and thin-film solar cells, perovskite solar cells (PSCs) reached a power conversion efficiency of 25.7% within 10 years. However, the presence of defects and trap density within the active layer's grain boundaries commonly operates as non-radiative recombination centers. Hence, intensive efforts have been reported to passivate the inevitable bulk and interface defects of the active layer using additives or post-treatment processi… Show more

“…As reported in our previous work, PEDOT:PSS PH is also effective HTL with another perovskite material system (FA x MA 1− x PbI 3 ). 54 For the mixed PEDOT:PSS layers ( Fig. 8b ), the PH:AI4083 and PH:PH100:AI4083 layers showed almost similar performance but better than PH:PH1000, showing consistency with SEM and XRD results.…”

How varying surface wettability of different PEDOT:PSS formulations and their mixtures affects perovskite crystallization and the efficiency of inverted perovskite solar cells

“…As reported in our previous work, PEDOT:PSS PH is also effective HTL with another perovskite material system (FA x MA 1− x PbI 3 ). 54 For the mixed PEDOT:PSS layers ( Fig. 8b ), the PH:AI4083 and PH:PH100:AI4083 layers showed almost similar performance but better than PH:PH1000, showing consistency with SEM and XRD results.…”

How varying surface wettability of different PEDOT:PSS formulations and their mixtures affects perovskite crystallization and the efficiency of inverted perovskite solar cells