Dispersive and covalent interactions between graphene and metal surfaces from the random phase approximation

Dispersive and covalent interactions between graphene and metal surfaces from the random phase approximation

We calculate the potential energy surfaces for graphene adsorbed on Cu(111), Ni(111), and Co(0001) using density functional theory and the random phase approximation (RPA). For these adsorption systems covalent and dispersive interactions are equally important and while commonly used approximations...

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Veröffentlicht in:Physical review letters 2011-10, Vol.107 (15), p.156401-156401, Article 156401
Hauptverfasser: Olsen, Thomas, Yan, Jun, Mortensen, Jens J, Thygesen, Kristian S
Format: Artikel
Sprache:eng
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Zusammenfassung:We calculate the potential energy surfaces for graphene adsorbed on Cu(111), Ni(111), and Co(0001) using density functional theory and the random phase approximation (RPA). For these adsorption systems covalent and dispersive interactions are equally important and while commonly used approximations for exchange-correlation functionals give inadequate descriptions of either van der Waals or chemical bonds, RPA accounts accurately for both. It is found that the adsorption is a delicate competition between a weak chemisorption minimum close to the surface and a physisorption minimum further from the surface.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.107.156401