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      Graphite oxide/reduced graphite oxide surface modified carbon fiber reinforced composites for deicing and electromagnetic interference shielding

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          Most cited references31

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          Graphene-based composite materials.

          Graphene sheets--one-atom-thick two-dimensional layers of sp2-bonded carbon--are predicted to have a range of unusual properties. Their thermal conductivity and mechanical stiffness may rival the remarkable in-plane values for graphite (approximately 3,000 W m(-1) K(-1) and 1,060 GPa, respectively); their fracture strength should be comparable to that of carbon nanotubes for similar types of defects; and recent studies have shown that individual graphene sheets have extraordinary electronic transport properties. One possible route to harnessing these properties for applications would be to incorporate graphene sheets in a composite material. The manufacturing of such composites requires not only that graphene sheets be produced on a sufficient scale but that they also be incorporated, and homogeneously distributed, into various matrices. Graphite, inexpensive and available in large quantity, unfortunately does not readily exfoliate to yield individual graphene sheets. Here we present a general approach for the preparation of graphene-polymer composites via complete exfoliation of graphite and molecular-level dispersion of individual, chemically modified graphene sheets within polymer hosts. A polystyrene-graphene composite formed by this route exhibits a percolation threshold of approximately 0.1 volume per cent for room-temperature electrical conductivity, the lowest reported value for any carbon-based composite except for those involving carbon nanotubes; at only 1 volume per cent, this composite has a conductivity of approximately 0.1 S m(-1), sufficient for many electrical applications. Our bottom-up chemical approach of tuning the graphene sheet properties provides a path to a broad new class of graphene-based materials and their use in a variety of applications.
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            Improved mechanical properties of carbon fiber/graphene oxide-epoxy hybrid composites

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              Reduced graphene oxide deposited carbon fiber reinforced polymer composites for electromagnetic interference shielding

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                Author and article information

                Contributors
                Journal
                Journal of Materials Science: Materials in Electronics
                J Mater Sci: Mater Electron
                Springer Science and Business Media LLC
                0957-4522
                1573-482X
                January 2023
                January 12 2023
                January 2023
                : 34
                : 2
                Article
                10.1007/s10854-022-09424-x
                d9d27bf9-5f06-4b2a-bcc7-8a49efea2e4e
                © 2023

                https://www.springernature.com/gp/researchers/text-and-data-mining

                https://www.springernature.com/gp/researchers/text-and-data-mining

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