Graphene edges are of particular interest since their orientation determines the electronic properties. Here we present a detailed Raman investigation of graphene flakes with edges oriented at different crystallographic directions. We also develop a real space theory for Raman scattering to analyze the general case of disordered edges. The position, width, and intensity of G and D peaks are studied as a function of the incident light polarization. The D-band is strongest for polarization parallel to the edge and minimum for perpendicular. Raman mapping shows that the D peak is localized in proximity of the edge. For ideal edges, the D peak is zero for zigzag orientation and large for armchair, allowing in principle the use of Raman spectroscopy as a sensitive tool for edge orientation. However, for real samples, the D to G ratio does not always show a significant dependence on edge orientation. Thus, even though edges can appear macroscopically smooth and oriented at well-defined angles, they are not necessarily microscopically ordered.
Tariq Mohiuddin, Antonio Lombardo, Rahul R. Nair, A. Bonetti, G. Savini, R. Jalil, Nicola Bonini, D. M. Basko, Costas Galiotis, Nicola Marzari, Konstantin ‘kostya’ Novoselov, A. K. Geǐm, Andrea C. Ferrari
Otakar Frank, Georgia Tsoukleri, J. Parthenios, Konstantinos Papagelis, Ibtsam Riaz, R. Jalil, Konstantin ‘kostya’ Novoselov, Martin Kalbáč, Ladislav Kavan, Costas Galiotis
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
Discussion(0)
No comments yet. Be the first to comment.