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Fluorinated Oligomer Wrapped Perovskite Crystals for Inverted MAPbI3 Solar Cells with 21% Efficiency and Enhanced Stability.

Lisha XieJunni XieShurong WangBin ChenChenguang YangZhen WangXiaobo LiuJiangzhao ChenKun JiaFeng Hao
Published in: ACS applied materials & interfaces (2021)
Defects at the grain boundary provide sites for nonradiative recombination in halide perovskite solar cells (PSCs). Here, by polymerization and fluorination of a Lewis acid of 4,4-bis(4-hydroxyphenyl)pentanoic acid, a fluorinated oligomer (FO-19) is synthesized and applied to passivate these defects in methlyammonium lead iodide (MAPbI3). It is demonstrated that the carboxyl bond of FO-19 was coordinated with Pb ions in the perovskite films to achieve a wrapping effect on the perovskite crystals. The defects of perovskite film are effectively passivated, and the undesirable nonradiative recombination is greatly inhibited. As a result, FO-19 gives a power conversion efficiency of 21.23% for the inverted MAPbI3-based PSCs, which is among the highest reported values in the literature. Meanwhile, the corresponding device with FO-19 exhibits significantly improved humidity and thermal stability. Therefore, this work offers insights into the realization of high-efficiency and stable PSCs through fluorinated additive engineering.
Keyphrases
  • solar cells
  • high efficiency
  • perovskite solar cells
  • room temperature
  • ionic liquid
  • dna damage
  • dna repair
  • systematic review
  • heavy metals
  • aqueous solution
  • oxidative stress