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Graphene kirigami

Author

Listed:
  • Melina K. Blees

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • Arthur W. Barnard

    (School of Applied and Engineering Physics, Cornell University)

  • Peter A. Rose

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • Samantha P. Roberts

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • Kathryn L. McGill

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • Pinshane Y. Huang

    (School of Applied and Engineering Physics, Cornell University)

  • Alexander R. Ruyack

    (School of Electrical and Computer Engineering, Cornell University)

  • Joshua W. Kevek

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • Bryce Kobrin

    (Laboratory of Atomic and Solid State Physics, Cornell University)

  • David A. Muller

    (School of Applied and Engineering Physics, Cornell University
    Kavli Institute at Cornell for Nanoscale Science, Cornell University)

  • Paul L. McEuen

    (Laboratory of Atomic and Solid State Physics, Cornell University
    Kavli Institute at Cornell for Nanoscale Science, Cornell University)

Abstract

The ratio of in-plane stiffness to out-of-plane bending stiffness of graphene is shown to be similar to that of a piece of paper, which allows ideas from kirigami (a variation of origami that allows cutting) to be applied to micrometre-scale graphene sheets to build mechanically stretchable yet robust electrodes, springs and hinges.

Suggested Citation

  • Melina K. Blees & Arthur W. Barnard & Peter A. Rose & Samantha P. Roberts & Kathryn L. McGill & Pinshane Y. Huang & Alexander R. Ruyack & Joshua W. Kevek & Bryce Kobrin & David A. Muller & Paul L. McE, 2015. "Graphene kirigami," Nature, Nature, vol. 524(7564), pages 204-207, August.
    • Handle: RePEc:nat:nature:v:524:y:2015:i:7564:d:10.1038_nature14588
    DOI: 10.1038/nature14588
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