Electronic structure and magnetic properties of the graphene/Fe/Ni(111)
  intercalation-like system

Baberschke; Bertoni; Blochl; Cros; Dedkov; Dedkov; Dedkov; Dedkov; Dhesi; Duplock; E. N. Voloshina; Esquinazi; Fal'ko; Fan; Fernandez-Rossier; Gamo; Geim; K. Horn; Karpan; Karpan; Kresse; Kresse; M. Weser; Min; Nesvizhskii; Neto; Ohldag; Perdew; Rycerz; Schmidt; Srivastava; Sun; Tombros; Trauzettel; Wang; Weser; Wolf; Wu; Yamamoto; Yamamoto; Yazyev; Yazyev; Yazyev; Yu. S. Dedkov

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Electronic structure and magnetic properties of the graphene/Fe/Ni(111) intercalation-like system

Authors: Baberschke
Bertoni
Blochl
Cros
Dedkov
Dedkov
Dedkov
Dedkov
Dhesi
Duplock
E. N. Voloshina
Esquinazi
Fal'ko
Fan
Fernandez-Rossier
Gamo
Geim
K. Horn
Karpan
Karpan
Kresse
Kresse
M. Weser
Min
Nesvizhskii
Neto
Ohldag
Perdew
Rycerz
Schmidt
Srivastava
Sun
Tombros
Trauzettel
Wang
Weser
Wolf
Wu
Yamamoto
Yamamoto
Yazyev
Yazyev
Yazyev
Yu. S. Dedkov
Publication date: 1 January 2011
Publisher: 'Royal Society of Chemistry (RSC)'
Doi

Abstract

The electronic structure and magnetic properties of the graphene/Fe/Ni(111) system were investigated via combination of the density functional theory calculations and electron-spectroscopy methods. This system was prepared via intercalation of thin Fe layer (1 ML) underneath graphene on Ni(111) and its inert properties were verified by means of photoelectron spectroscopy. Intercalation of iron in the space between graphene and Ni(111) changes drastically the magnetic response from the graphene layer that is explained by the formation of the highly spin-polarized

3d_{z^2}

quantum-well state in the thin iron layer.Comment: Manuscript and supplementary material

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info:doi/10.1039%2Fc1cp00014d

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