Abstract
Quasi free-standing graphene with Dirac fermion behavior has been recently demonstrated through gold intercalated epitaxial graphene. Herein, we investigate the electronic characteristics of gold-intercepted epitaxial graphene under a perpendicularly applied electric field. Evolution of the band structure of intercalated epitaxial graphene as a function of the bias is investigated by means of density-functional theory including interlayer van der Waals interactions. Our results indicate that gold-intercalated epitaxial graphene can lead to tuneable band gap with the applied bias, which is important for future device applications. © 2012 the Owner Societies.
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CITATION STYLE
Sapkota, I., Roundtree, M. A., Hall, J. H., & Wang, X. Q. (2012). Tunable band gap in gold intercalated graphene. Physical Chemistry Chemical Physics, 14(46), 15991–15994. https://doi.org/10.1039/c2cp43219f
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