Edge-reconstructed, few-layered graphene nanoribbons : stability and electronic properties.
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2017
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We report a first-principles study of edgereconstructed,
few-layered graphene nanoribbons. We find that
the nanoribbon stability increases linearly with increasing
width and decreases linearly with increasing number of layers
(from three to six layers). Specifically, we find that a threelayer
1.3 nm wide ribbon is energetically more stable than the
C60 fullerene, and that a 1.8 nm wide ribbon is more stable
than a (10,0) carbon nanotube. The morphologies of the
reconstructed edges are characterized by the presence of five-, six-, and sevenfold rings, with sp3 and sp2 bonds at the
reconstructed edges. The electronic structure of the few-layered nanoribbons with reconstructed edges can be metallic or
semiconducting, with band gaps oscillating between 0 and 0.28 eV as a function of ribbon width.
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GONÇALVES, J. A. et al. Edge-reconstructed, few-layered graphene nanoribbons: stability and electronic properties. Journal of Physical Chemistry. C, v. 01, p. 1-5, 2017. Disponível em: <http://pubs.acs.org/doi/abs/10.1021/acs.jpcc.7b00532>. Acesso em: 16 jan. 2018.