Journal
CRYSTALS
Volume 13, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/cryst13091370
Keywords
ionic liquids; two-step method; photovoltaic devices; defect states
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Ionic liquids (ILs) have wide applications in controlling the crystallization process and enhancing the performance of perovskite devices. However, there is limited research on the effects of ILs on perovskite devices prepared using the two-step method. This study investigates the effects of a specific IL as an additive in the perovskite precursor solution on the morphology, defect density, and photovoltaic performance of perovskite thin films. The results show that the IL has a strong chemical affinity with perovskite components, leading to inhibition of ion migration and optimization of perovskite morphology.
Ionic liquids (ILs) have found widespread use in controlling the crystallization process of perovskites, optimizing the morphology and enhancing the device performance, especially in the one-step method. However, research regarding the effects of ionic liquids on perovskite devices prepared using the two-step method remains relatively scarce. Here, an IL 1-Hexyl-3-methylimidazolium Tetrafluoroborate (HMIMBF4) is selected as an additive in the perovskite precursor solution for the fabrication of PSCs using the two-step method. Our study involves a systematic exploration of the precise effects of ILs on the morphology of perovskite thin films, defect density, and photovoltaic performance. IL HMIMBF4 is convincingly shown to possess a robust chemical affinity with perovskite components, thereby establishing a basis for the inhibition of ion migration. Concurrently, ILs play a pivotal role in governing the morphology of perovskite while also facilitating the conversion of lead iodide into the perovskite structure. Benefiting from the regulation of the perovskite morphology and defect states by IL HMIMBF4, the devices with an efficiency exceeding 23% is ultimately achieved. Our research provides a comprehensive comprehension and contributes to advancing the utilization of ILs in two-step photovoltaic devices.
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