Epitaxial growth of large-area single-layer graphene over Cu(1 1 1)/sapphire by atmospheric pressure CVD

Baoshan Hu; Hiroki Ago; Yoshito Ito; Kenji Kawahara; Masaharu Tsuji; Eisuke Magome; Kazushi Sumitani; Noriaki Mizuta; Ken Ichi Ikeda; Seigi Mizuno

doi:10.1016/j.carbon.2011.08.002

Epitaxial growth of large-area single-layer graphene over Cu(1 1 1)/sapphire by atmospheric pressure CVD

Baoshan Hu, Hiroki Ago, Yoshito Ito, Kenji Kawahara, Masaharu Tsuji, Eisuke Magome, Kazushi Sumitani, Noriaki Mizuta, Ken Ichi Ikeda, Seigi Mizuno

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

262 Citations (Scopus)

Abstract

We report the atmospheric pressure chemical vapor deposition (CVD) growth of single-layer graphene over a crystalline Cu(1 1 1) film heteroepitaxially deposited on c-plane sapphire. Orientation-controlled, epitaxial single-layer graphene is achieved over the Cu(1 1 1) film on sapphire, while a polycrystalline Cu film deposited on a Si wafer gives non-uniform graphene with multi-layer flakes. Moreover, the CVD temperature is found to affect the quality and orientation of graphene grown on the Cu/sapphire substrates. The CVD growth at 1000 °C gives high-quality epitaxial single-layer graphene whose orientation of hexagonal lattice matches with the Cu(1 1 1) lattice which is determined by the sapphire's crystallographic direction. At lower CVD temperature of 900 °C, low-quality graphene with enhanced Raman D band is obtained, and it showed two different orientations of the hexagonal lattice; one matches with the Cu lattice and another rotated by 30°. Carbon isotope-labeling experiment indicates rapid exchange of the surface-adsorbed and gas-supplied carbon atoms at the higher temperature, resulting in the highly crystallized graphene with energetically most stable orientation consistent with the underlying Cu(1 1 1) lattice.

Original language	English
Pages (from-to)	57-65
Number of pages	9
Journal	Carbon
Volume	50
Issue number	1
DOIs	https://doi.org/10.1016/j.carbon.2011.08.002
Publication status	Published - Jan 2012

All Science Journal Classification (ASJC) codes

Chemistry(all)
Materials Science(all)

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10.1016/j.carbon.2011.08.002

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title = "Epitaxial growth of large-area single-layer graphene over Cu(1 1 1)/sapphire by atmospheric pressure CVD",

abstract = "We report the atmospheric pressure chemical vapor deposition (CVD) growth of single-layer graphene over a crystalline Cu(1 1 1) film heteroepitaxially deposited on c-plane sapphire. Orientation-controlled, epitaxial single-layer graphene is achieved over the Cu(1 1 1) film on sapphire, while a polycrystalline Cu film deposited on a Si wafer gives non-uniform graphene with multi-layer flakes. Moreover, the CVD temperature is found to affect the quality and orientation of graphene grown on the Cu/sapphire substrates. The CVD growth at 1000 °C gives high-quality epitaxial single-layer graphene whose orientation of hexagonal lattice matches with the Cu(1 1 1) lattice which is determined by the sapphire's crystallographic direction. At lower CVD temperature of 900 °C, low-quality graphene with enhanced Raman D band is obtained, and it showed two different orientations of the hexagonal lattice; one matches with the Cu lattice and another rotated by 30°. Carbon isotope-labeling experiment indicates rapid exchange of the surface-adsorbed and gas-supplied carbon atoms at the higher temperature, resulting in the highly crystallized graphene with energetically most stable orientation consistent with the underlying Cu(1 1 1) lattice.",

author = "Baoshan Hu and Hiroki Ago and Yoshito Ito and Kenji Kawahara and Masaharu Tsuji and Eisuke Magome and Kazushi Sumitani and Noriaki Mizuta and Ikeda, {Ken Ichi} and Seigi Mizuno",

note = "Funding Information: This work is supported by JSPS Funding Program for Next Generation World-Leading Researches (NEXT Program) and PRESTO, Japan Science and Technology. Synchrotron XRD and TEM measurements were performed at the SAGA Light Source (No. 100533N) and Fukuryo Semiconductor Engineering Co., respectively. ",

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AU - Hu, Baoshan

AU - Ago, Hiroki

AU - Ito, Yoshito

AU - Kawahara, Kenji

AU - Tsuji, Masaharu

AU - Magome, Eisuke

AU - Sumitani, Kazushi

AU - Mizuta, Noriaki

AU - Ikeda, Ken Ichi

AU - Mizuno, Seigi

N1 - Funding Information: This work is supported by JSPS Funding Program for Next Generation World-Leading Researches (NEXT Program) and PRESTO, Japan Science and Technology. Synchrotron XRD and TEM measurements were performed at the SAGA Light Source (No. 100533N) and Fukuryo Semiconductor Engineering Co., respectively.

PY - 2012/1

Y1 - 2012/1

N2 - We report the atmospheric pressure chemical vapor deposition (CVD) growth of single-layer graphene over a crystalline Cu(1 1 1) film heteroepitaxially deposited on c-plane sapphire. Orientation-controlled, epitaxial single-layer graphene is achieved over the Cu(1 1 1) film on sapphire, while a polycrystalline Cu film deposited on a Si wafer gives non-uniform graphene with multi-layer flakes. Moreover, the CVD temperature is found to affect the quality and orientation of graphene grown on the Cu/sapphire substrates. The CVD growth at 1000 °C gives high-quality epitaxial single-layer graphene whose orientation of hexagonal lattice matches with the Cu(1 1 1) lattice which is determined by the sapphire's crystallographic direction. At lower CVD temperature of 900 °C, low-quality graphene with enhanced Raman D band is obtained, and it showed two different orientations of the hexagonal lattice; one matches with the Cu lattice and another rotated by 30°. Carbon isotope-labeling experiment indicates rapid exchange of the surface-adsorbed and gas-supplied carbon atoms at the higher temperature, resulting in the highly crystallized graphene with energetically most stable orientation consistent with the underlying Cu(1 1 1) lattice.

AB - We report the atmospheric pressure chemical vapor deposition (CVD) growth of single-layer graphene over a crystalline Cu(1 1 1) film heteroepitaxially deposited on c-plane sapphire. Orientation-controlled, epitaxial single-layer graphene is achieved over the Cu(1 1 1) film on sapphire, while a polycrystalline Cu film deposited on a Si wafer gives non-uniform graphene with multi-layer flakes. Moreover, the CVD temperature is found to affect the quality and orientation of graphene grown on the Cu/sapphire substrates. The CVD growth at 1000 °C gives high-quality epitaxial single-layer graphene whose orientation of hexagonal lattice matches with the Cu(1 1 1) lattice which is determined by the sapphire's crystallographic direction. At lower CVD temperature of 900 °C, low-quality graphene with enhanced Raman D band is obtained, and it showed two different orientations of the hexagonal lattice; one matches with the Cu lattice and another rotated by 30°. Carbon isotope-labeling experiment indicates rapid exchange of the surface-adsorbed and gas-supplied carbon atoms at the higher temperature, resulting in the highly crystallized graphene with energetically most stable orientation consistent with the underlying Cu(1 1 1) lattice.

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Epitaxial growth of large-area single-layer graphene over Cu(1 1 1)/sapphire by atmospheric pressure CVD

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