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Ultratransparent and stretchable graphene electrodes.

Nan Liu1, Alex Chortos1, Ting Lei1

  • 1Department of Chemical Engineering, Stanford University, Stanford, CA 94305, USA.

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|September 16, 2017
PubMed
Summary
This summary is machine-generated.

Researchers developed multilayer graphene/graphene scrolls (MGGs) to improve the stretchability of graphene conductors. These nanoscrolls maintain conductivity under high strain, enabling advanced flexible electronics and optoelectronics.

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Condensed Matter Physics

Background:

  • Graphene's high tensile strength leads to fracturing at low strain, limiting its use in stretchable electronics.
  • Developing strain-tolerant transparent conductive films is crucial for flexible and wearable devices.

Purpose of the Study:

  • To create highly stretchable and transparent graphene conductors with enhanced strain-dependent performance.
  • To investigate the role of nanoscrolls in maintaining electrical conductivity under strain.

Main Methods:

  • Fabrication of multilayer graphene/graphene scrolls (MGGs) by incorporating nanoscrolls between stacked graphene layers.
  • Testing the electrical conductivity and transmittance of MGGs on elastomer substrates under varying strain.
  • Fabrication and characterization of stretchable all-carbon transistors using MGG electrodes.

Main Results:

  • MGGs maintained 65% of original conductance at 100% strain, outperforming conventional graphene films (25%).
  • Stretchable all-carbon transistors using MGG electrodes showed >90% transmittance and retained 60% current output at 120% strain.
  • Nanoscrolls bridged fragmented graphene domains, preserving a conductive network under strain.

Conclusions:

  • Multilayer graphene/graphene scrolls offer a promising pathway for highly stretchable and transparent conductive materials.
  • These materials can enable the development of sophisticated stretchable optoelectronics and advanced flexible electronic devices.