The cost-effective processability and high stability of carbon-based perovskite solar cells (C-PSCs) have shown a tremendous potential to positively devote to the development of large-scale production process. However, prior to...
Defects located in the surface of quantum dots highly impact carrier dynamics and transfer, which would limit the photoelectric conversion efficiency (PCE) of perovskite quantum dot solar cells. Herein, we deposit high-quality FAPbBr 3 quantum dot films through passivating Pb salts and conducting damage-free drying processes. The results indicate that the process of PbBr 2 treatment and vacuum drying process fill both the Pb 2+ and Br − vacancies and minimize the damage of the FAPbBr 3 quantum dot film. The device assembled with this film achieved a champion PCE of 3.11% and involved an ultrahigh open-circuit voltage of 1.67 V or more. In addition, both the corresponding FAPbBr 3 quantum dot films and devices exhibited higher humidity stability than the control films and devices. These studies will provide insights for designing high-quality perovskite quantum dot films with superior optoelectronic properties.
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