Reg Bauld scite author profile

Ribonucleic acid (RNA) is proposed as a nonionic surfactant for the efficient exfoliation of graphite in thin flakes of few-layer graphene and the subsequent preparation of transparent and conducting thin films. Parameters such as the type of RNA used and the size of starting graphite flakes are demonstrated to be essential for obtaining RNA-graphene thin films of good quality. A model explaining the exfoliation of graphene by RNA in water is suggested. A number of post- and predeposition treatments (including thermal annealing, functionalization of the films, and the preoxidation of graphite) are critical to improve the performance of graphene-RNA nanocomposites as transparent conductors. The study establishes an ideal link between RNA and graphene, the fundamental building blocks for nanobiology and carbon-based nanotechnology.

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6-Oxoverdazyl radical polymers with tunable electrochemical properties

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Paquette

Harrison

et al. 2014

Polym. Chem.

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Solution Processed Graphene Thin Films and Their Applications in Organic Solar Cells

Bauld

Sharifi

Fanchini

2012

Int. J. Mod. Phys. B

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We present a review of the recent progresses in solution processing graphene thin films and highlight some of the uses of graphene and graphene thin films in the construction of organic solar cells. We demonstrate a simple phenomenological model to describe the relationship between sheet conductivity and transmittance in graphene films with good agreement to all of the data found in the literature. We show that graphene thin films have been proven useful in the construction and improvement of organic solar cells not only as a replacement electrode, but also as an active acceptor material, or as a counter electrode when integrated into a conducting polymer matrix.

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Thermo-optical characterization and thermal properties of graphene–polymer composites: a review

et al. 2018

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Reg Bauld

Transparent and Conducting Graphene–RNA‐Based Nanocomposites

6-Oxoverdazyl radical polymers with tunable electrochemical properties

Solution Processed Graphene Thin Films and Their Applications in Organic Solar Cells

Thermo-optical characterization and thermal properties of graphene–polymer composites: a review

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