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Exploring electronic structure of one-atom thick polycrystalline graphene films: a nano angle resolved photoemission study.


ABSTRACT: The ability to produce large, continuous and defect free films of graphene is presently a major challenge for multiple applications. Even though the scalability of graphene films is closely associated to a manifest polycrystalline character, only a few numbers of experiments have explored so far the electronic structure down to single graphene grains. Here we report a high resolution angle and lateral resolved photoelectron spectroscopy (nano-ARPES) study of one-atom thick graphene films on thin copper foils synthesized by chemical vapor deposition. Our results show the robustness of the Dirac relativistic-like electronic spectrum as a function of the size, shape and orientation of the single-crystal pristine grains in the graphene films investigated. Moreover, by mapping grain by grain the electronic dynamics of this unique Dirac system, we show that the single-grain gap-size is 80% smaller than the multi-grain gap recently reported by classical ARPES.

SUBMITTER: Avila J 

PROVIDER: S-EPMC3743056 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Exploring electronic structure of one-atom thick polycrystalline graphene films: a nano angle resolved photoemission study.

Avila José J   Razado Ivy I   Lorcy Stéphane S   Fleurier Romain R   Pichonat Emmanuelle E   Vignaud Dominique D   Wallart Xavier X   Asensio María C MC  

Scientific reports 20130101


The ability to produce large, continuous and defect free films of graphene is presently a major challenge for multiple applications. Even though the scalability of graphene films is closely associated to a manifest polycrystalline character, only a few numbers of experiments have explored so far the electronic structure down to single graphene grains. Here we report a high resolution angle and lateral resolved photoelectron spectroscopy (nano-ARPES) study of one-atom thick graphene films on thin  ...[more]

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