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Atomic Manipulation on a Scanning Transmission Electron Microscope Platform using Real-Time Image Processing and Feedback

  • Ondrej Dyck (a1) (a2), Songkil Kim (a2) (a3), Albina Borisevich (a2) (a4), Bethany M. Hudak (a2) (a4), Andrew R. Lupini (a2) (a4), Sergei V. Kalinin (a1) (a2) and Stephen Jesse (a1) (a2)...
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References

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[1] Dyck, O., Kim, S., Kalinin, S. Jesse, S. Assembling Di-and Multiatomic Si Clusters in Graphene via Electron Beam Manipulation. ARXIV:1710.09416 2017.
[2] Dyck, O., Kim, S., Kalinin, S. Jesse, S. E-beam manipulation of Si atoms on graphene edges with aberration-corrected STEM. ARXIV:1710.10338 2017.
[3] Dyck, O., Kim, S., Kalinin, S. Jesse, S. Mitigating e-beam-induced hydrocarbon deposition on graphene for atomic-scale scanning transmission electron microscopy studies. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 36 2018.
[4] Dyck, O., Kim, S., Kalinin, S. V. Jesse, S. Placing single atoms in graphene with a scanning transmission electron microscope. APPLIED PHYSICS LETTERS 111 2017.
[5] Kalinin, S. V., Borisevich, A. Jesse, S. Fire up the Atom Forge. NATURE 539 2016.
[6] Jesse, S., et. al. Atomic-Level Sculpting of Crystalline Oxides: Toward Bulk Nanofabrication with Single Atomic Plane Precision. Small 11 2015.
[7] Research supported by Oak Ridge National Laboratory’s Center for Nanophase Materials Sciences (CNMS), which is sponsored by the Scientific User Facilities Division, Office of Basic Energy Sciences, U.S. Department of Energy (S.V.K.), and by the Laboratory Directed Research and Development Program of Oak Ridge National Laboratory, managed by UT-Battelle, LLC, for the U.S. Department of Energy (O.D, S.K., S.J.).

Atomic Manipulation on a Scanning Transmission Electron Microscope Platform using Real-Time Image Processing and Feedback

  • Ondrej Dyck (a1) (a2), Songkil Kim (a2) (a3), Albina Borisevich (a2) (a4), Bethany M. Hudak (a2) (a4), Andrew R. Lupini (a2) (a4), Sergei V. Kalinin (a1) (a2) and Stephen Jesse (a1) (a2)...

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