水分并不总是坏事:水可以加速DMAPbI3中间体向CsPbI3的转化，从而将碳基钙钛矿太阳能电池的效率提高到16%以上

IF 6.2 3区综合性期刊 Q1 Multidisciplinary

Fundamental Research Pub Date : 2024-09-01 DOI:10.1016/j.fmre.2022.07.005

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引用次数: 0

摘要

无机 CsPbI3 包晶由于具有合适的光学带隙和较高的化学稳定性，在包晶太阳能电池（PSC）中具有巨大的应用潜力。然而，CsPbI3 的包晶相在室温下并不稳定，会转变为非包晶相。湿度或水被认为是诱发这种相变的主要因素，在整个薄膜和器件加工过程中都应避免。令人惊讶的是，本研究表明，在潮湿空气中制备前驱体溶液有利于高质量 CsPbI3 包晶的生长，从而提高器件性能。研究表明，在前驱体溶液中加入来自潮湿空气或有意添加的 H2O 会显著改变配位化合物的组成，并增加低碘配位络合物的数量。因此，二甲基碘化铅铵（DMAPbI3）中间体的结晶受到了很好的抑制，从而加速了其随后向 CsPbI3 包晶的转化。因此，获得的取向 CsPbI3 包晶石薄膜具有更高的结晶度和更低的缺陷密度。最重要的是，基于 CsPbI3 包晶薄膜的碳基 PSC（C-PSC）的效率达到了 16.05%，创下了无机 C-PSC 的新纪录。

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Moisture is not always bad: H2O accelerates the conversion of DMAPbI3 intermediate to CsPbI3 for boosting the efficiency of carbon-based perovskite solar cells to over 16%

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Moisture is not always bad: H2O accelerates the conversion of DMAPbI3 intermediate to CsPbI3 for boosting the efficiency of carbon-based perovskite solar cells to over 16%

Inorganic CsPbI₃ perovskite has exhibited great application potential in perovskite solar cells (PSCs) due to its suitable optical bandgap and high chemical stability. However, the perovskite phases of CsPbI₃ are not stable at room temperature, where they transition to non-perovskite phases. Humidity or water has been thought to be the primary factor inducing this phase transition, which should be avoided throughout the procedure of film and device processing. Surprisingly, the present study indicates that preparing a precursor solution in humid air is beneficial to the growth of high-quality CsPbI₃ perovskite to enhance device performance. It is demonstrated that the incorporation of H₂O in the precursor solution from humid air or by intentional addition significantly changes the composition of coordination compounds and increases the amount of low iodine coordination complexes. As a result, the crystallization of dimethylammonium lead iodide (DMAPbI₃) intermediate is suppressed well, which accelerates its subsequent conversion to CsPbI₃ perovskite. Consequently, an oriented CsPbI₃ perovskite film with improved crystallinity and lower defect density is obtained. Most importantly, carbon-based PSCs (C-PSCs) based on the CsPbI₃ perovskite film achieve an efficiency of 16.05%, a new record for inorganic C-PSCs.

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