We show with angle-resolved photoemission spectroscopy that a new energy band appears in the electronic structure of electron-doped hydrogenated monolayer graphene (H-graphene). Its occupation can be controlled with the hydrogen amount and allows for tuning of graphene's doping level. Our calculations of the electronic structure of H-graphene suggest that this state is largely composed of hydrogen 1s orbitals and remains extended for low H coverages despite the random chemisorption of H. Further evidence for the existence of a hydrogen state is provided by x-ray absorption studies of undoped H-graphene which are clearly showing the emergence of an additional state in the vicinity of the pi* resonance.

Direct observation of a dispersionless impurity band in hydrogenated graphene / Haberer, D; Petaccia, L; Farjam, M; Taioli, S; Jafari, Sa; Nefedov, A; Zhang, W; Calliari, L; Scarduelli, G; Dora, B; Vyalikh, Dv; Pichler, T; Woll, C; Alfe, D; Simonucci, S; Dresselhaus, Ms; Knupfer, M; Buchner, B; Gruneis, A. - In: PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS. - ISSN 1098-0121. - 83:16(2011). [10.1103/PhysRevB.83.165433]

Direct observation of a dispersionless impurity band in hydrogenated graphene

Alfe D;
2011

Abstract

We show with angle-resolved photoemission spectroscopy that a new energy band appears in the electronic structure of electron-doped hydrogenated monolayer graphene (H-graphene). Its occupation can be controlled with the hydrogen amount and allows for tuning of graphene's doping level. Our calculations of the electronic structure of H-graphene suggest that this state is largely composed of hydrogen 1s orbitals and remains extended for low H coverages despite the random chemisorption of H. Further evidence for the existence of a hydrogen state is provided by x-ray absorption studies of undoped H-graphene which are clearly showing the emergence of an additional state in the vicinity of the pi* resonance.
2011
Direct observation of a dispersionless impurity band in hydrogenated graphene / Haberer, D; Petaccia, L; Farjam, M; Taioli, S; Jafari, Sa; Nefedov, A; Zhang, W; Calliari, L; Scarduelli, G; Dora, B; Vyalikh, Dv; Pichler, T; Woll, C; Alfe, D; Simonucci, S; Dresselhaus, Ms; Knupfer, M; Buchner, B; Gruneis, A. - In: PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS. - ISSN 1098-0121. - 83:16(2011). [10.1103/PhysRevB.83.165433]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/753515
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