Galvanomagnetic, Optical Properties and Ultraviolet Photoelectron Spectra of Potassium-Oxygen-Graphite Intercalation Compounds

Tetsuo Yamashita; Toshiaki Enoki; Mikio Uruichi; Kyuya Yakushi; Takayuki Miyamae; Takafumi Miyazaki

doi:10.1143/JPSJ.66.158

Galvanomagnetic, Optical Properties and Ultraviolet Photoelectron Spectra of Potassium-Oxygen-Graphite Intercalation Compounds

Tetsuo Yamashita, Toshiaki Enoki, Mikio Uruichi, Kyuya Yakushi, Takayuki Miyamae, Takafumi Miyazaki

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

3 Citations (Scopus)

Abstract

We investigated the Hall effect, the transverse magnetoresistance, the optical reflectivity and the ultraviolet photoelectron spectra for 1st and 2nd stage KO_x-GICs (C_4nKO_x, stage number n = 1,2; x∼2) in order to clarify the transport properties and the electronic structures. The Hall effect and the magnetoresistance indicate that the electrical conduction in KO_x-GICs is governed by the majority electron carriers with low mobility in graphitic π bands and the minority hole carriers with high mobility in the intercalate bands, the latter of which originates mainly from the oxygen bands as suggested by the incident photon energy dependence of the ultraviolet photoelectron spectra. The optical reflectance spectra give the estimates of the Fermi energies, 1.9 eV and 1.35 eV for 1st and 2nd stage compounds, respectively, on the basis of the Drude-Lorentz model. The contribution of the intercalate hole carriers to the plasma frequency is small in good agreement with the Hall effect indicating the presence of minority hole carriers. These experimental findings suggest the contribution of the intercalate layer to the transport properties and the electronic structure around the Fermi level.

Original language	English
Pages (from-to)	158-168
Number of pages	11
Journal	journal of the physical society of japan
Volume	66
Issue number	1
DOIs	https://doi.org/10.1143/JPSJ.66.158
Publication status	Published - Jan 1997
Externally published	Yes

Keywords

Graphite intercalation compounds
Hall effect
Magnetoresistance
Optical reflectivity
Ultraviolet photoelectron spectra

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.66.158

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title = "Galvanomagnetic, Optical Properties and Ultraviolet Photoelectron Spectra of Potassium-Oxygen-Graphite Intercalation Compounds",

abstract = "We investigated the Hall effect, the transverse magnetoresistance, the optical reflectivity and the ultraviolet photoelectron spectra for 1st and 2nd stage KOx-GICs (C4nKOx, stage number n = 1,2; x∼2) in order to clarify the transport properties and the electronic structures. The Hall effect and the magnetoresistance indicate that the electrical conduction in KOx-GICs is governed by the majority electron carriers with low mobility in graphitic π bands and the minority hole carriers with high mobility in the intercalate bands, the latter of which originates mainly from the oxygen bands as suggested by the incident photon energy dependence of the ultraviolet photoelectron spectra. The optical reflectance spectra give the estimates of the Fermi energies, 1.9 eV and 1.35 eV for 1st and 2nd stage compounds, respectively, on the basis of the Drude-Lorentz model. The contribution of the intercalate hole carriers to the plasma frequency is small in good agreement with the Hall effect indicating the presence of minority hole carriers. These experimental findings suggest the contribution of the intercalate layer to the transport properties and the electronic structure around the Fermi level.",

keywords = "Graphite intercalation compounds, Hall effect, Magnetoresistance, Optical reflectivity, Ultraviolet photoelectron spectra",

author = "Tetsuo Yamashita and Toshiaki Enoki and Mikio Uruichi and Kyuya Yakushi and Takayuki Miyamae and Takafumi Miyazaki",

year = "1997",

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language = "English",

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T1 - Galvanomagnetic, Optical Properties and Ultraviolet Photoelectron Spectra of Potassium-Oxygen-Graphite Intercalation Compounds

AU - Yamashita, Tetsuo

AU - Enoki, Toshiaki

AU - Uruichi, Mikio

AU - Yakushi, Kyuya

AU - Miyamae, Takayuki

AU - Miyazaki, Takafumi

PY - 1997/1

Y1 - 1997/1

N2 - We investigated the Hall effect, the transverse magnetoresistance, the optical reflectivity and the ultraviolet photoelectron spectra for 1st and 2nd stage KOx-GICs (C4nKOx, stage number n = 1,2; x∼2) in order to clarify the transport properties and the electronic structures. The Hall effect and the magnetoresistance indicate that the electrical conduction in KOx-GICs is governed by the majority electron carriers with low mobility in graphitic π bands and the minority hole carriers with high mobility in the intercalate bands, the latter of which originates mainly from the oxygen bands as suggested by the incident photon energy dependence of the ultraviolet photoelectron spectra. The optical reflectance spectra give the estimates of the Fermi energies, 1.9 eV and 1.35 eV for 1st and 2nd stage compounds, respectively, on the basis of the Drude-Lorentz model. The contribution of the intercalate hole carriers to the plasma frequency is small in good agreement with the Hall effect indicating the presence of minority hole carriers. These experimental findings suggest the contribution of the intercalate layer to the transport properties and the electronic structure around the Fermi level.

AB - We investigated the Hall effect, the transverse magnetoresistance, the optical reflectivity and the ultraviolet photoelectron spectra for 1st and 2nd stage KOx-GICs (C4nKOx, stage number n = 1,2; x∼2) in order to clarify the transport properties and the electronic structures. The Hall effect and the magnetoresistance indicate that the electrical conduction in KOx-GICs is governed by the majority electron carriers with low mobility in graphitic π bands and the minority hole carriers with high mobility in the intercalate bands, the latter of which originates mainly from the oxygen bands as suggested by the incident photon energy dependence of the ultraviolet photoelectron spectra. The optical reflectance spectra give the estimates of the Fermi energies, 1.9 eV and 1.35 eV for 1st and 2nd stage compounds, respectively, on the basis of the Drude-Lorentz model. The contribution of the intercalate hole carriers to the plasma frequency is small in good agreement with the Hall effect indicating the presence of minority hole carriers. These experimental findings suggest the contribution of the intercalate layer to the transport properties and the electronic structure around the Fermi level.

KW - Graphite intercalation compounds

KW - Hall effect

KW - Magnetoresistance

KW - Optical reflectivity

KW - Ultraviolet photoelectron spectra

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Galvanomagnetic, Optical Properties and Ultraviolet Photoelectron Spectra of Potassium-Oxygen-Graphite Intercalation Compounds

Abstract

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