Convergent-beam electron diffraction (CBED), recently demonstrated on two-dimensional (2D) materials, offers a number of interesting applications such as imaging atomic in- and out-of plane shifts, interlayer distances, and individual adsorbates. In this study, we show how CBED allows for atomic-precision imaging of individual defects in 2D materials using one single-shot intensity measurement. In combination with structural calculations using density-functional theory, we present simulated CBED patterns for various defects in graphene, each of which exhibits a unique fingerprint distribution. We also show how atomic positions, including the individual atomic defects in graphene, can be reconstructed by iterative phase retrieval from a single CBED pattern.
S. Mustafi, Rongsheng Cai, Sam Sullivan−Allsop, Matthew D. Smith, Nick Clark, M. W. Lindley, Peng Ding, Konstantin ‘kostya’ Novoselov, Sarah J. Haigh, Tatiana Latychevskaia
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