Fast growth of graphene patterns by laser direct writing

J. B. Park; W. Xiong; Y. Gao; M. Qian; Z. Q. Xie; M. Mitchell; Y. S. Zhou; G. H. Han; L. Jiang; Y. F. Lu

doi:10.1063/1.3569720

Fast growth of graphene patterns by laser direct writing

J. B. Park
, W. Xiong
, Y. Gao
, M. Qian
, Z. Q. Xie
, M. Mitchell
, Y. S. Zhou
, G. H. Han
, L. Jiang
, Y. F. Lu

School of Mechanical Engineering

University of Nebraska-Lincoln
Sungkyunkwan University

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

129 Citations (Scopus)

Abstract

Rapid single-step fabrication of graphene patterns was developed using laser-induced chemical vapor deposition (LCVD). A laser beam irradiates a thin nickel foil in a CH₄ and H₂ environment to induce a local temperature rise, thereby allowing the direct writing of graphene patterns in precisely controlled positions at room temperature. Line patterns can be achieved with a single scan without pre- or postprocesses. Surprisingly, the growth rate is several thousand times faster than that of general CVD methods. The discovery and development of the LCVD growth process provide a route for the rapid fabrication of graphene patterns for various applications.

Original language	English
Article number	123109
Journal	Applied Physics Letters
Volume	98
Issue number	12
DOIs	https://doi.org/10.1063/1.3569720
Publication status	Published - 21 Mar 2011

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10.1063/1.3569720

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title = "Fast growth of graphene patterns by laser direct writing",

abstract = "Rapid single-step fabrication of graphene patterns was developed using laser-induced chemical vapor deposition (LCVD). A laser beam irradiates a thin nickel foil in a CH4 and H2 environment to induce a local temperature rise, thereby allowing the direct writing of graphene patterns in precisely controlled positions at room temperature. Line patterns can be achieved with a single scan without pre- or postprocesses. Surprisingly, the growth rate is several thousand times faster than that of general CVD methods. The discovery and development of the LCVD growth process provide a route for the rapid fabrication of graphene patterns for various applications.",

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AU - Xiong, W.

AU - Gao, Y.

AU - Qian, M.

AU - Xie, Z. Q.

AU - Mitchell, M.

AU - Zhou, Y. S.

AU - Han, G. H.

AU - Jiang, L.

AU - Lu, Y. F.

PY - 2011/3/21

Y1 - 2011/3/21

N2 - Rapid single-step fabrication of graphene patterns was developed using laser-induced chemical vapor deposition (LCVD). A laser beam irradiates a thin nickel foil in a CH4 and H2 environment to induce a local temperature rise, thereby allowing the direct writing of graphene patterns in precisely controlled positions at room temperature. Line patterns can be achieved with a single scan without pre- or postprocesses. Surprisingly, the growth rate is several thousand times faster than that of general CVD methods. The discovery and development of the LCVD growth process provide a route for the rapid fabrication of graphene patterns for various applications.

AB - Rapid single-step fabrication of graphene patterns was developed using laser-induced chemical vapor deposition (LCVD). A laser beam irradiates a thin nickel foil in a CH4 and H2 environment to induce a local temperature rise, thereby allowing the direct writing of graphene patterns in precisely controlled positions at room temperature. Line patterns can be achieved with a single scan without pre- or postprocesses. Surprisingly, the growth rate is several thousand times faster than that of general CVD methods. The discovery and development of the LCVD growth process provide a route for the rapid fabrication of graphene patterns for various applications.

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JO - Applied Physics Letters

JF - Applied Physics Letters

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ER -

Fast growth of graphene patterns by laser direct writing

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