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arxiv 2207.01213 v1 pith:4NETE6KR submitted 2022-07-04 cond-mat.mtrl-sci

Strain and Crystallographic Identification of the Helically Concaved Surfaces of Nanoparticles

classification cond-mat.mtrl-sci
keywords nanoparticleschiralapplicationsconcavecrystallographicdistributionsstrainstructures
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Identifying the three-dimensional (3D) crystal-plane and strain-field distributions of nanocrystals is essential for optical, catalytic, and electronic applications. Here, we developed a methodology for visualizing the 3D information of chiral gold nanoparticles with concave gap structures by Bragg coherent X-ray diffraction imaging. The distribution of the high-Miller-index planes constituting the concave chiral gap was precisely determined. The highly strained region adjacent to the chiral gaps was resolved, which was correlated to the 432-symmetric morphology of the nanoparticles and its corresponding plasmonic properties were numerically predicted from the atomically defined structures. This approach can serve as a general characterization platform for visualizing the 3D crystallographic and strain distributions of nanoparticles, especially for applications where structural complexity and local heterogeneity are major determinants, as exemplified in plasmonics.

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