Spintronic properties of graphene films grown on Ni(111) substrate

S. J. Gong; Z. Y. Li; Z. Q. Yang; Cheng Gong; Chun Gang Duan; J. H. Chu

doi:10.1063/1.3622618

Spintronic properties of graphene films grown on Ni(111) substrate

S. J. Gong^*, Z. Y. Li, Z. Q. Yang, Cheng Gong, Chun Gang Duan, J. H. Chu

^*Corresponding author for this work

School of Physics and Electronic Science

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

23 Scopus citations

Abstract

Graphene is believed to be a promising candidate for spintronic applications. In this study, we investigate the electronic, magnetic, and, especially, spintronic properties of graphene films grown on Ni(111) substrate using relativistic density-functional calculations. Enhanced Rashba spin-orbit coupling (SOC), with a magnitude of up to 20 meV-several orders of magnitude larger than the intrinsic SOC strength in freestanding graphene-is found at the graphene-Ni(111) interface. The hybridization between graphene's p_z states and Ni's 3d states magnetizes the interfacial carbon atoms and induces a sizable exchange splitting in the π band of the graphene sheet. The calculated results agree well with the recently reported experimental data and provide a deep understanding of the spintronic behavior of graphene in contact with a 3d-ferromagnet.

Original language	English
Article number	043704
Journal	Journal of Applied Physics
Volume	110
Issue number	4
DOIs	https://doi.org/10.1063/1.3622618
State	Published - 15 Aug 2011

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title = "Spintronic properties of graphene films grown on Ni(111) substrate",

abstract = "Graphene is believed to be a promising candidate for spintronic applications. In this study, we investigate the electronic, magnetic, and, especially, spintronic properties of graphene films grown on Ni(111) substrate using relativistic density-functional calculations. Enhanced Rashba spin-orbit coupling (SOC), with a magnitude of up to 20 meV-several orders of magnitude larger than the intrinsic SOC strength in freestanding graphene-is found at the graphene-Ni(111) interface. The hybridization between graphene's pz states and Ni's 3d states magnetizes the interfacial carbon atoms and induces a sizable exchange splitting in the π band of the graphene sheet. The calculated results agree well with the recently reported experimental data and provide a deep understanding of the spintronic behavior of graphene in contact with a 3d-ferromagnet.",

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AU - Gong, S. J.

AU - Li, Z. Y.

AU - Yang, Z. Q.

AU - Gong, Cheng

AU - Duan, Chun Gang

AU - Chu, J. H.

PY - 2011/8/15

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N2 - Graphene is believed to be a promising candidate for spintronic applications. In this study, we investigate the electronic, magnetic, and, especially, spintronic properties of graphene films grown on Ni(111) substrate using relativistic density-functional calculations. Enhanced Rashba spin-orbit coupling (SOC), with a magnitude of up to 20 meV-several orders of magnitude larger than the intrinsic SOC strength in freestanding graphene-is found at the graphene-Ni(111) interface. The hybridization between graphene's pz states and Ni's 3d states magnetizes the interfacial carbon atoms and induces a sizable exchange splitting in the π band of the graphene sheet. The calculated results agree well with the recently reported experimental data and provide a deep understanding of the spintronic behavior of graphene in contact with a 3d-ferromagnet.

AB - Graphene is believed to be a promising candidate for spintronic applications. In this study, we investigate the electronic, magnetic, and, especially, spintronic properties of graphene films grown on Ni(111) substrate using relativistic density-functional calculations. Enhanced Rashba spin-orbit coupling (SOC), with a magnitude of up to 20 meV-several orders of magnitude larger than the intrinsic SOC strength in freestanding graphene-is found at the graphene-Ni(111) interface. The hybridization between graphene's pz states and Ni's 3d states magnetizes the interfacial carbon atoms and induces a sizable exchange splitting in the π band of the graphene sheet. The calculated results agree well with the recently reported experimental data and provide a deep understanding of the spintronic behavior of graphene in contact with a 3d-ferromagnet.

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DO - 10.1063/1.3622618

M3 - 文章

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Spintronic properties of graphene films grown on Ni(111) substrate

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