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Letter
Nature 457, 706-710 (5 February 2009) | doi:10.1038/nature07719; Received 5 October 2008; Accepted 8 December 2008; Published online 14 January 2009
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Senior Lecturer / Reader
- King's College London
- London United Kingdom
Postdoc in Computational Cancer Genomics
- Max Planck Institute for Neurological Research, Cologne, Germany
- Cologne, Germany
Large-scale pattern growth of graphene films for stretchable transparent electrodes
Keun Soo Kim1,3,4, Yue Zhao7, Houk Jang2, Sang Yoon Lee5, Jong Min Kim5, Kwang S. Kim6, Jong-Hyun Ahn2,3, Philip Kim3,7, Jae-Young Choi5 & Byung Hee Hong1,3,4
- Department of Chemistry,
- School of Advanced Materials Science and Engineering,
- SKKU Advanced Institute of Nanotechnology,
- Center for Nanotubes and Nanostructured Composites, Sungkyunkwan University, Suwon 440-746, Korea
- Samsung Advanced Institute of Technology, PO Box 111, Suwon 440-600, Korea
- Department of Chemistry, Pohang University of Science and Technology, Pohang 790-784, Korea
- Department of Physics, Columbia University, New York, New York 10027, USA
Correspondence to: Jae-Young Choi5Byung Hee Hong1,3,4 Correspondence and requests for materials should be addressed to B.H.H. (Email: byunghee@skku.edu) or J.-Y.C. (Email: jaeyoung88.choi@samsung.com).
Abstract
Problems associated with large-scale pattern growth of graphene constitute one of the main obstacles to using this material in device applications1. Recently, macroscopic-scale graphene films were prepared by two-dimensional assembly of graphene sheets chemically derived from graphite crystals and graphene oxides2, 3. However, the sheet resistance of these films was found to be much larger than theoretically expected values. Here we report the direct synthesis of large-scale graphene films using chemical vapour deposition on thin nickel layers, and present two different methods of patterning the films and transferring them to arbitrary substrates. The transferred graphene films show very low sheet resistance of 
280 
per square, with 80 per cent optical transparency. At low temperatures, the monolayers transferred to silicon dioxide substrates show electron mobility greater than 3,700 cm2 V-1 s-1 and exhibit the half-integer quantum Hall effect4, 5, implying that the quality of graphene grown by chemical vapour deposition is as high as mechanically cleaved graphene6. Employing the outstanding mechanical properties of graphene7, we also demonstrate the macroscopic use of these highly conducting and transparent electrodes in flexible, stretchable, foldable electronics8, 9.
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