Direct observation of electrically induced Pauli paramagnetism in single-layer graphene using ESR spectroscopy

Graphene has been actively investigated as an electronic material owing to many excellent physical properties, such as high charge mobility and quantum Hall effect, due to the characteristics of a linear band structure and an ideal two-dimensional electron system. However, the correlations between t...

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Veröffentlicht in:	Scientific reports 2016-10, Vol.6 (1), p.34966-34966, Article 34966
Hauptverfasser:	Fujita, Naohiro, Matsumoto, Daisuke, Sakurai, Yuki, Kawahara, Kenji, Ago, Hiroki, Takenobu, Taishi, Marumoto, Kazuhiro
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Schlagworte:	639/301/1005/1007 639/301/357/918/1052 Humanities and Social Sciences Mobility multidisciplinary Nanotechnology Nanotubes Physical properties Science Spectroscopy Spectrum analysis
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description	Graphene has been actively investigated as an electronic material owing to many excellent physical properties, such as high charge mobility and quantum Hall effect, due to the characteristics of a linear band structure and an ideal two-dimensional electron system. However, the correlations between the transport characteristics and the spin states of charge carriers or atomic vacancies in graphene have not yet been fully elucidated. Here, we show the spin states of single-layer graphene to clarify the correlations using electron spin resonance (ESR) spectroscopy as a function of accumulated charge density using transistor structures. Two different electrically induced ESR signals were observed. One is originated from a Fermi-degenerate two-dimensional electron system, demonstrating the first observation of electrically induced Pauli paramagnetism from a microscopic viewpoint, showing a clear contrast to no ESR observation of Pauli paramagnetism in carbon nanotubes (CNTs) due to a one-dimensional electron system. The other is originated from the electrically induced ambipolar spin vanishments due to atomic vacancies in graphene, showing a universal phenomenon for carbon materials including CNTs. The degenerate electron system with the ambipolar spin vanishments would contribute to high charge mobility due to the decrease in spin scatterings in graphene.
doi_str_mv	10.1038/srep34966
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However, the correlations between the transport characteristics and the spin states of charge carriers or atomic vacancies in graphene have not yet been fully elucidated. Here, we show the spin states of single-layer graphene to clarify the correlations using electron spin resonance (ESR) spectroscopy as a function of accumulated charge density using transistor structures. Two different electrically induced ESR signals were observed. One is originated from a Fermi-degenerate two-dimensional electron system, demonstrating the first observation of electrically induced Pauli paramagnetism from a microscopic viewpoint, showing a clear contrast to no ESR observation of Pauli paramagnetism in carbon nanotubes (CNTs) due to a one-dimensional electron system. The other is originated from the electrically induced ambipolar spin vanishments due to atomic vacancies in graphene, showing a universal phenomenon for carbon materials including CNTs. The degenerate electron system with the ambipolar spin vanishments would contribute to high charge mobility due to the decrease in spin scatterings in graphene.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>27731338</pmid><doi>10.1038/srep34966</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	639/301/1005/1007 639/301/357/918/1052 Humanities and Social Sciences Mobility multidisciplinary Nanotechnology Nanotubes Physical properties Science Spectroscopy Spectrum analysis
title	Direct observation of electrically induced Pauli paramagnetism in single-layer graphene using ESR spectroscopy
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