Electronic states of monolayer graphite formed on TiC(111) surface

Ayato Nagashima; Kenji Nuka; Hiroshi Itoh; Takeo Ichinokawa; Chuhei Oshima; Shigeki Otani

doi:10.1016/0039-6028(93)91480-D

Electronic states of monolayer graphite formed on TiC(111) surface

Ayato Nagashima^*, Kenji Nuka, Hiroshi Itoh, Takeo Ichinokawa, Chuhei Oshima, Shigeki Otani

^*Corresponding author for this work

Waseda University

Research output: Contribution to journal › Article › peer-review

82 Citations (Scopus)

Abstract

Electronic states of a monolayer graphite formed on TiC(111) surface have been investigated by means of XPS, UPS, and work-function measurement. The chemical shift of C1s peaks in XPS spectra has inhibited a large electron transfer from the substrate to the monolayer graphite. On the other hand, the band structure of the graphite overlayer has altered from that of bulk graphite. The work-function measurement has suggested an electron redistribution in the graphite layer. These results indicate that the electronic states of the graphite monolayer are modified not by the charge transfer, but mainly by the orbital hybridization between the graphite monolayer and the substrate, which differs from graphite intercalation compounds.

Original language	English
Pages (from-to)	93-98
Number of pages	6
Journal	Surface Science
Volume	291
Issue number	1-2
DOIs	https://doi.org/10.1016/0039-6028(93)91480-D
Publication status	Published - 1993 Jul 1

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Condensed Matter Physics
Surfaces and Interfaces

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abstract = "Electronic states of a monolayer graphite formed on TiC(111) surface have been investigated by means of XPS, UPS, and work-function measurement. The chemical shift of C1s peaks in XPS spectra has inhibited a large electron transfer from the substrate to the monolayer graphite. On the other hand, the band structure of the graphite overlayer has altered from that of bulk graphite. The work-function measurement has suggested an electron redistribution in the graphite layer. These results indicate that the electronic states of the graphite monolayer are modified not by the charge transfer, but mainly by the orbital hybridization between the graphite monolayer and the substrate, which differs from graphite intercalation compounds.",

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AU - Nagashima, Ayato

AU - Nuka, Kenji

AU - Itoh, Hiroshi

AU - Ichinokawa, Takeo

AU - Oshima, Chuhei

AU - Otani, Shigeki

PY - 1993/7/1

Y1 - 1993/7/1

N2 - Electronic states of a monolayer graphite formed on TiC(111) surface have been investigated by means of XPS, UPS, and work-function measurement. The chemical shift of C1s peaks in XPS spectra has inhibited a large electron transfer from the substrate to the monolayer graphite. On the other hand, the band structure of the graphite overlayer has altered from that of bulk graphite. The work-function measurement has suggested an electron redistribution in the graphite layer. These results indicate that the electronic states of the graphite monolayer are modified not by the charge transfer, but mainly by the orbital hybridization between the graphite monolayer and the substrate, which differs from graphite intercalation compounds.

AB - Electronic states of a monolayer graphite formed on TiC(111) surface have been investigated by means of XPS, UPS, and work-function measurement. The chemical shift of C1s peaks in XPS spectra has inhibited a large electron transfer from the substrate to the monolayer graphite. On the other hand, the band structure of the graphite overlayer has altered from that of bulk graphite. The work-function measurement has suggested an electron redistribution in the graphite layer. These results indicate that the electronic states of the graphite monolayer are modified not by the charge transfer, but mainly by the orbital hybridization between the graphite monolayer and the substrate, which differs from graphite intercalation compounds.

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Electronic states of monolayer graphite formed on TiC(111) surface

Abstract

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