Imaging of Bernal stacked and misoriented graphene and boron nitride: experiment and simulation
Journal of Microscopy 244(2): 152-158
Article 2011 English
Authors
RZ
Recep Zan
UB
U. Bangert
QR
Quentin M. Ramasse
Abstract
1 min read
Experimental atomic resolution bright and high angle dark field transmission electron microscopy images of mono- and few-layer graphene and boron nitride, as well as of turbostratic arrangements in both materials, are compared to their simulated counterparts. Changes in the images according to defocus, layer number and accelerating voltage are discussed. It emerges that simulations with realistic microscope parameters accurately depict experimental graphene and boron nitride images and present a reliable tool for their interpretation.
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
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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