Direct determination of the crystallographic orientation of graphene edges by atomic resolution imaging
Applied Physics Letters 97(5)
Article 2010 English
Authors
SN
Soeren Neubeck
YY
Yu‐Meng You
ZN
Zhenhua Ni
Abstract
1 min read
In this letter, we show how high-resolution scanning tunneling microscopy (STM) imaging can be used to reveal that certain edges of micromechanically exfoliated single layer graphene crystals on silicon oxide follow either zigzag or armchair orientation. Using the cleavage technique, graphene flakes are obtained that very often show terminating edges seemingly following the crystallographic directions of the underlying honeycomb lattice. Performing atomic resolution STM-imaging on such flakes, we were able to directly prove this assumption. Raman imaging carried out on the same flakes further validated our findings.
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Rupini Kamat, Aaron L. Sharpe, Mihir Pendharkar, Jenny Hu, Steven J. Tran, Gregory Zaborski, M. B. Hocking, Joe Finney, Kenji Watanabe, Takashi Taniguchi, M. A. Kastner, Andrew J. Mannix, Tony F. Heinz, David Goldhaber‐Gordon
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