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High conductive ethylene vinyl acetate composites filled with reduced graphene oxide and polyaniline
Authors:NY Yuan  FF Ma  Y Fan  YB Liu  JN Ding
Affiliation:1. Department of Chemical Engineering, Isfahan University of Technology, 84156-83111 Isfahan, Iran;2. Iran Polymer and Petrochemical Institute, P.O. Box 14965/115, Tehran, Iran;3. Leibniz-Institut für Polymerforschung Dresden e.V., D-01069 Dresden, Germany;4. Technische Universität Dresden, Institut für Werkstoffwissenschaft, D-01069 Dresden, Germany;3. From the Transfusion Research Center, Belgian Red Cross-Flanders, 9000 Ghent, Belgium,;4. the Department of Hematology, Hospital Network Antwerp, 2000 Antwerp, Belgium,;5. the Research Institute for Chromatography, 8500 Kortrijk, Belgium,;6. the Blood Service of the Belgian Red Cross-Flanders, 2800 Mechelen, Belgium,;12. the Faculty of Medicine and Health Sciences, Ghent University, 9000 Ghent, Belgium;1. State Key Laboratory of Organic-Inorganic Composites, Beijing University of Chemical Technology, Beijing, 100029, China;2. Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology, Beijing, 100029, China;3. Key Laboratory of Carbon Fiber and Functional Polymers, Ministry of Education, Beijing University of Chemical Technology, Beijing, 100029, China
Abstract:A conductive network composed of reduced graphene oxide (RGO) planes and polyaniline (PANI) chains was designed and fabricated by in situ polymerization of aniline monomer on the RGO planes. It was further used for fabrication of conductive composites with a polymer matrix–ethylene vinyl acetate (EVA). The composites achieve improved conductivity at a low filler loading although the host polymer–EVA–is of insulator. For instance, compared to the pure EVA polymer, the conductivity of the composite filled with 4.0 wt.% RGO and 8.0 wt.% PANI increases from 1.2 × 10?14 S cm?1 to 1.07 × 10?1 S cm?1. In addition, thermal stability of the composites is also enhanced by the filler loading.
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