期刊
ACS APPLIED MATERIALS & INTERFACES
卷 15, 期 39, 页码 46483-46492出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.3c08827
关键词
halide defect; stability; defect passivation; perovskite solar cell; interfacial modification
Organic-inorganic hybrid perovskite solar cells with high-quality perovskite thin films passivated by an ionic liquid (DADA) exhibit improved device performance, including increased power conversion efficiency and enhanced stability. The DADA treatment reduces surface defects and improves film morphology, leading to reduced charged defects and prolonged carrier lifetime. The increase in work function and passivation of ion defects contribute to better carrier transport.
Organic-inorganic hybrid perovskite solar cells are fabricated using polycrystalline perovskite thin films, which possess high densities of point and surface defects. The surface defects of perovskite thin films are the key factors that affect the device performance. Therefore, the reduction of harmful defects is the primary task for improving device performance. Therefore, in this study, high-quality perovskite thin films are prepared using an ionic liquid, dithiocarbamate diethylamine (DADA), to passivate the interface. The electron-rich sulfur atom in the DADA molecule chelates with the uncoordinated lead ion in the perovskite films, and the diethylammonium cation forms a hydrogen bond with the free iodine ion, which further improves the passivation. The synergistic passivation and improved morphology of the perovskite thin films substantially reduce the number of charged defects on the film surface and prolong the carrier lifetime. In addition, the DADA surface treatment increases the work function of the perovskite film, which is beneficial for carrier transport. Under standard solar-lighting conditions, the power conversion efficiency (PCE) of the device increases from 19.13 to 21.36%, and the fill factor is as high as 83.17%. Owing to both the hydrophobicity of DADA molecules and the passivation of ion defects, the PCE of the device remains above 80%, even for the device stored for 500 h in air at a relative humidity of 65%, and the device stability is substantially improved.
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