The radiation-sensitive nature of halide perovskites has hindered structural studies at the atomic scale. We overcome this obstacle by applying low dose-rate in-line holography, which combines aberration-corrected high-resolution transmission electron microscopy with exit-wave reconstruction. This technique successfully yields the genuine atomic structure of ultrathin two-dimensional CsPbBr<sub>3</sub> halide perovskites, and a quantitative structure determination was achieved atom column by atom column using the phase information of the reconstructed exit-wave function without causing electron beam-induced sample alterations. An extraordinarily high image quality enables an unambiguous structural analysis of coexisting high-temperature and low-temperature phases of CsPbBr<sub>3</sub> in single particles. On a broader level, our approach offers unprecedented opportunities to better understand halide perovskites at the atomic level as well as other radiation-sensitive materials.
Jianbo Jin, Maria C. Folgueras, Mengyu Gao, Sunmoon Yu, Sheena Louisia, Ye Zhang, Li Na Quan, Chubai Chen, Rui Zhang, F. Seeler, Kerstin Schierle‐Arndt, Peidong Yang
Woochul Lee, Huashan Li, Andrew Barnabas Wong, Dandan Zhang, Minliang Lai, Yi Yu, Qiao Kong, Elbert Lin, Jeffrey J. Urban, Jeffrey C. Grossman, Peidong Yang
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