Co‐Self‐Assembled Monolayers Modified NiOx for Stable Inverted Perovskite Solar Cells

0301 basic medicine Buried interface Self-assembled monolayer Inverted perovskite solar cells 0104 chemical sciences
DOI: 10.1002/adma.202311970 Publication Date: 2024-01-11T00:08:27Z
ABSTRACT
Abstract[4‐(3,6‐dimethyl‐9H‐carbazol‐9yl)butyl]phosphonic acid (Me‐4PACz) self‐assembled molecules (SAM) are an effective method to solve the problem of the buried interface of NiOx in inverted perovskite solar cells (PSCs). However, the Me‐4PACz end group (carbazole core) cannot forcefully passivate defects at the bottom of the perovskite film. Here, a Co‐SAM strategy is employed to modify the buried interface of PSCs. Me‐4PACz is doped with phosphorylcholine chloride (PC) to form a Co‐SAM to improve the monolayer coverage and reduce leakage current. The phosphate group and chloride ions (Cl−) in PC can inhibit NiOx surface defects. Meantime, the quaternary ammonium ions and Cl− in PC can fill organic cations and halogen vacancies in the perovskite film to enable defects passivation. Moreover, Co‐SAM can promote the growth of perovskite crystals, collaboratively solve the problem of buried defects, suppress nonradiative recombination, accelerate carrier transmission, and relieve the residual stress of the perovskite film. Consequently, the Co‐SAM modified devices show power conversion efficiencies as high as 25.09% as well as excellent device stability with 93% initial efficiency after 1000 h of operation under one‐sun illumination. This work demonstrates the novel approach for enhancing the performance and stability of PSCs by modifying Co‐SAM on NiOx.
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