以一埃分辨率成像电子束敏感扭曲杂化钙钛矿双层

IF 16 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

ACS Nano Pub Date : 2025-01-22 DOI:10.1021/acsnano.4c1175910.1021/acsnano.4c11759

Yuan Lu, Hongsheng Shi, Shuchen Zhang, Dewei Sun, Libai Huang, Letian Dou and Yi Yu*,

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引用次数: 0

摘要

扭曲卤化物钙钛矿双分子层是一种莫尔条纹材料，具有令人兴奋的光学性质。由于在常规/扫描透射电子显微镜下，有机-无机卤化物钙钛矿对照射的电子束非常敏感，因此难以实现原子尺度的结构分析及其与性能的相关性。在这里，我们开发了一种低剂量出口波重建方法，其实际空间分辨率为1埃，在~ 50 e/Å2，该方法在原子尺度上恢复了CH3NH3PbI3 （MAPbI3）扭曲钙钛矿双层中moir条纹的相位信息，从而能够详细分析这些moir材料中的缺陷和相应的应变分布。这项工作提供了对电子束敏感的扭曲双层材料的原子水平的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Imaging Electron Beam-Sensitive Twisted Hybrid Perovskite Bilayers at One-Angstrom Resolution

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Imaging Electron Beam-Sensitive Twisted Hybrid Perovskite Bilayers at One-Angstrom Resolution

Twisted halide perovskite bilayers, a type of moiré material, show square moiré patterns with exciting optical properties. Atomic-scale structure analysis and its correlation with properties are difficult to achieve due to the extreme sensitivity of organic–inorganic halide perovskites to the illuminated electron beam in conventional/scanning transmission electron microscopy. Here, we developed a low-dose exit wave reconstruction methodology with a real-space resolution of one angstrom at ∼50 e/Å², which recovers the phase information on the moiré fringes in CH₃NH₃PbI₃ (MAPbI₃) twisted perovskite bilayers at atomic scale, enabling detailed structural analysis of defects and corresponding strain distribution in such moiré materials. This work provides an atomic-level understanding of electron beam-sensitive twisted bilayer materials.

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来源期刊

ACS Nano 工程技术-材料科学：综合

CiteScore

26.00

自引率

4.10%

发文量

1627

审稿时长

1.7 months

期刊介绍： ACS Nano, published monthly, serves as an international forum for comprehensive articles on nanoscience and nanotechnology research at the intersections of chemistry, biology, materials science, physics, and engineering. The journal fosters communication among scientists in these communities, facilitating collaboration, new research opportunities, and advancements through discoveries. ACS Nano covers synthesis, assembly, characterization, theory, and simulation of nanostructures, nanobiotechnology, nanofabrication, methods and tools for nanoscience and nanotechnology, and self- and directed-assembly. Alongside original research articles, it offers thorough reviews, perspectives on cutting-edge research, and discussions envisioning the future of nanoscience and nanotechnology.