Beilstein Journal of Nanotechnology (Feb 2017)

Advances in the fabrication of graphene transistors on flexible substrates

  • Gabriele Fisichella,
  • Stella Lo Verso,
  • Silvestra Di Marco,
  • Vincenzo Vinciguerra,
  • Emanuela Schilirò,
  • Salvatore Di Franco,
  • Raffaella Lo Nigro,
  • Fabrizio Roccaforte,
  • Amaia Zurutuza,
  • Alba Centeno,
  • Sebastiano Ravesi,
  • Filippo Giannazzo

DOI
https://doi.org/10.3762/bjnano.8.50
Journal volume & issue
Vol. 8, no. 1
pp. 467 – 474

Abstract

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Graphene is an ideal candidate for next generation applications as a transparent electrode for electronics on plastic due to its flexibility and the conservation of electrical properties upon deformation. More importantly, its field-effect tunable carrier density, high mobility and saturation velocity make it an appealing choice as a channel material for field-effect transistors (FETs) for several potential applications. As an example, properly designed and scaled graphene FETs (Gr-FETs) can be used for flexible high frequency (RF) electronics or for high sensitivity chemical sensors. Miniaturized and flexible Gr-FET sensors would be highly advantageous for current sensors technology for in vivo and in situ applications. In this paper, we report a wafer-scale processing strategy to fabricate arrays of back-gated Gr-FETs on poly(ethylene naphthalate) (PEN) substrates. These devices present a large-area graphene channel fully exposed to the external environment, in order to be suitable for sensing applications, and the channel conductivity is efficiently modulated by a buried gate contact under a thin Al2O3 insulating film. In order to be compatible with the use of the PEN substrate, optimized deposition conditions of the Al2O3 film by plasma-enhanced atomic layer deposition (PE-ALD) at a low temperature (100 °C) have been developed without any relevant degradation of the final dielectric performance.

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