Counting molecular-beam grown graphene layers
journal contribution
posted on 2025-07-30, 22:03 authored by Annette S. Plaut, Ulrich Wurstbauer, Aron Pinczuk, Jorge M. Garcia, Loren N. PfeifferWe have used the ratio of the integrated intensity of graphene's Raman G peak to that of the silicon substrate's first-order optical phonon peak, accurately to determine the number of graphene layers across our molecular-beam (MB) grown graphene films. We find that these results agree well both, with those from our own exfoliated single and few-layer graphene flakes, and with the results of Koh et al. [ACS Nano 5, 269 (2011)]. We hence distinguish regions of single-, bi-, tri-, four-layer, etc., graphene, consecutively, as we scan coarsely across our MB-grown graphene. This is the first, but crucial, step to being able to grow, by such molecular-beam-techniques, a specified number of large-area graphene layers, to order.
Funding
Work supported by ONR (N000140610138 and Graphene Muri), EFRC Center for Re-Defining Photovoltaic Efficiency through Molecule Scale Control (award DE-SC0001085), NSF (CHE-0641523), NYSTAR, CSIC-PIF (200950I154), Spanish CAM (Q&C Light (S2009ESP-1503), Numancia 2 (S2009/ENE-1477)), and Spanish MEC (ENE2009-14481-C02-02, TEC2011-29120-C05-04, MAT2011-26534).
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Copyright © 2013 American Institute of PhysicsExternal DOI
Journal
Applied Physics LettersPublisher
American Institute of PhysicsLanguage
enCitation
Vol. 102 (24), article 241905Department
- Physics and Astronomy
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