从单一化学计量源连续波激光辅助蒸发卤化物包晶体薄膜

Naga Prathibha Jasti, S. Tirosh, Ansuman Halder, Eti Teblum, David Cahen
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引用次数: 0

摘要

我们报告了连续波激光辅助蒸发(CLE)技术,这是一种薄膜沉积技术,可从符合化学计量的 HaP 靶件中获得相纯且符合化学计量的卤化物包晶(HaPs)薄膜。我们使用甲基溴化铅铵 (MAPbBr3) 演示了利用 CLE 在各种基底上生长取向良好、光滑薄膜的能力。此外,我们还通过制备其他几种三维 HaP 化合物(即甲基碘化铅铵、甲脒溴化铅以及二维化合物丁基碘化铅铵)的薄膜,展示了 CLE 的广泛适用性。CLE 是一种单源、无溶剂、室温工艺,只需粗抽真空;它可以沉积有机-无机混合化合物薄膜,无需后热处理或额外的有机前驱体源,即可获得预期产品。沉积出的薄膜是多晶体且具有高度取向性。所有这些特点,以及将一个化学计量源作为目标的事实,使得这种干沉积方法具有吸引力和潜在的可扩展性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Continuous wave laser-assisted evaporation of halide perovskite thin films from a single stoichiometric source
We report continuous wave laser-assisted evaporation (CLE), a thin film deposition technique that yields phase-pure and stoichiometric thin films of halide perovskites (HaPs) from stoichiometric HaP targets. We use methylammonium lead bromide (MAPbBr3) to demonstrate the ability to grow with CLE well-oriented and smooth thin films on various substrates. Further, we show the broader applicability of CLE by preparing films of several other 3D HaP compounds, viz., methylammonium lead iodide, formamidinium lead bromide, and a 2D one, butylammonium lead iodide. CLE is a single-source, solvent-free, room-temperature process that needs only roughing pump vacuum; it allows the deposition of hybrid organic-inorganic compound films without needing post-thermal treatment or an additional organic precursor source to yield the intended product. The resulting films are polycrystalline and highly oriented. All these features, and the fact that one stoichiometric source serves as the target, make for an attractive, potentially scalable dry deposition approach.
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