Electronic structure and the minimum conductance of a graphene layer on
  SiO2 from density-functional methods.

Büttiker M; Chandrasekhar S; Danlap B I; Kress G Furthmüller J Hafner J; M W C Dharma-wardana; Meyer J C Geim A K Katsnelson M I Novoselov K S Booth T J Roth S; Peierls R E; Rignanese G-M; Tit N; Varchon F Feng R Hass J Li X Nguyen B N Naud C Mallet P Veuillen J-Y Berger C Conrad E H Magaud L; Wehling T O Balatsky A V Katsnelson M I Lichtenstein A I Scharnberg K Wiesendanger R; Wilson M

research

Electronic structure and the minimum conductance of a graphene layer on SiO2 from density-functional methods.

Authors: Büttiker M
Chandrasekhar S
Danlap B I
Kress G Furthmüller J Hafner J
M W C Dharma-wardana
Meyer J C Geim A K Katsnelson M I Novoselov K S Booth T J Roth S
Peierls R E
Rignanese G-M
Tit N
Varchon F Feng R Hass J Li X Nguyen B N Naud C Mallet P Veuillen J-Y Berger C Conrad E H Magaud L
Wehling T O Balatsky A V Katsnelson M I Lichtenstein A I Scharnberg K Wiesendanger R
Wilson M
Publication date: 1 January 2007
Publisher: 'IOP Publishing'
Doi

Abstract

The effect of the SiO

_2

substrate on a graphene film is investigated using realistic but computationally convenient energy-optimized models of the substrate supporting a layer of graphene. The electronic bands are calculated using density-functional methods for several model substrates. This provides an estimate of the substrate-charge effects on the behaviour of the bands near

E_F

, as well as a variation of the equilibrium distance of the graphene sheet. A model of a wavy graphene layer is examined as a possible candidate for understanding the nature of the minimally conducting states in graphene.Comment: 6 pages, 5 figure

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