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Interface Engineering with Formamidinium Salts for Improving Ambient-Processed Inverted CsPbI 3 Photovoltaic Performance: Intermediate- vs Post-Treatment.

Tianxiang LiWan LiKun WangLi CaoYali ChenHongqiang WangMaosen FuYu Tong
Published in: ACS applied materials & interfaces (2023)
Inverted all-inorganic perovskite solar cells (PSCs) have attracted increasing attention owing to excellent thermal stability, easy fabrication, and adaptable application as top cell in tandem solar cells. Apart from efficiency, ambient processing is desirable for practical production. To avoid water invasion in ambient air, surface engineering for perovskites is reported as a valid approach. However, most were performed by post-treatment, which hardly regulates the formation process of perovskite crystals. This work demonstrates a simple but effective surface intermediate-treatment strategy to stabilize CsPbI 3 perovskites fabricated in ambient air and compares the different effects yielded on the inverted PSCs. By using formamidinium (FA) salts for intermediate-treatment, the strong interaction between FA cation and [PbI 6 ] 4- octahedron improves the moisture resistance, and compared with the post-treatment strategy, the accelerated crystallization rate and the shortened exposure time to moisture reduce the devastation by water during film fabrication process further. Moreover, the greatly passivated defects and optimized energy level matching between perovskite and PCBM suppress the nonradiative recombination. Resultantly, the optimized device shows enhanced efficiency from 11.39% to 15.45%, and long-term stability is improved, with 97.6% efficiency remaining after storage for 1600 h. Therefore, we believe that this work can provide a promising guideline for fabricating all-inorganic inverted PSCs in a low-cost manufacturing scheme.
Keyphrases
  • perovskite solar cells
  • solar cells
  • air pollution
  • room temperature
  • gold nanoparticles
  • ionic liquid
  • stem cells
  • cell therapy
  • reduced graphene oxide