A simple and flexible route to large-area conductive transparent graphene thin-films

نویسندگان

  • Kirill Arapov
  • Andrey Goryachev
  • Heiner Friedrich
چکیده

Solution-processed conductive, flexible and transparent graphene thin films continue drawing attention from science and technology due to their potential for many electrical applications. Here, an up-scalable method for the solution processing of graphite to graphene and further to self-assembled large-area conductive transparent thin-films is presented. The method proceeds via the graphite intercalation route followed by thermal expansion to obtain expanded graphite. The resulting material is dispersed in a surfactant-free mixture of isopropanol and propylene glycol to obtain a stable colloidal dispersion. A graphene thin film is subsequently formed by self-organization at an oil/water interface followed by liftup transfer to virtually any substrate of interest. Thermally annealed thin-films exhibit a thicknesstunable sheet resistances of between 10 and 0.8 kV/& with transparencies between 75% and 45% at 500 nm wavelength, respectively. Additional Au-doping decreases the sheet resistance by a factor of 5. Heating doped films to temperatures above 380 K or exposure to ambient conditions significantly increases the sheet resistance as a result of decreasing charge carrier concentration. The presented method is a simple, up-scalable and thus competitive alternative to other techniques for large area graphene film production. ã 2015 Elsevier B.V. All rights reserved.

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تاریخ انتشار 2017