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Rapid Identification of Stacking Orientation in Isotopically Labeled Chemical-Vapor Grown Bilayer Graphene by Raman Spectroscopy

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    0437084 - ÚFCH JH 2015 RIV US eng J - Journal Article
    Fang, W. - Hsu, A. L. - Caudillo, R. - Song, Y. - Birdwell, A. G. - Zakar, E. - Kalbáč, Martin - Dubey, M. - Palacios, T. - Dresselhaus, M. S. - Araujo, P. T. - Kong, J.
    Rapid Identification of Stacking Orientation in Isotopically Labeled Chemical-Vapor Grown Bilayer Graphene by Raman Spectroscopy.
    Nano Letters. Roč. 13, č. 4 (2013), s. 1541-1548. ISSN 1530-6984. E-ISSN 1530-6992
    R&D Projects: GA ČR(CZ) GAP208/12/1062; GA MŠMT LH13022
    Institutional support: RVO:61388955
    Keywords : AB-stacked bilayer graphene * carbon isotope * fluorination
    Subject RIV: CF - Physical ; Theoretical Chemistry
    Impact factor: 12.940, year: 2013

    The growth of large-area bilayer graphene has been of technological importance for graphene electronics. The successful application of graphene bilayers critically relies on the precise control of the stacking orientation, which determines both electronic and vibrational properties of the bilayer system. Toward this goal, an effective characterization method is critically needed to allow researchers to easily distinguish the bilayer stacking orientation (i.e., AB stacked or turbostratic). In this work, we developed such a method to provide facile identification of the stacking orientation by isotope labeling. Raman spectroscopy of these isotopically labeled bilayer samples shows a clear signature associated with AB stacking between layers, enabling rapid differentiation between turbostratic and AB-stacked bilayer regions. Using this method, we were able to characterize the stacking orientation in bilayer graphene grown through Low Pressure Chemical Vapor Deposition (LPCVD) with enclosed Cu foils, achieving almost 70% AB-stacked bilayer graphene. Furthermore, by combining surface sensitive fluorination with such hybrid C-12/C-13 bilayer samples, we are able to identify that the second layer grows underneath the first-grown layer, which is similar to a recently reported observation.
    Permanent Link: http://hdl.handle.net/11104/0240660

     
     
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