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W1540697629 endingPage "4813" @default.
W1540697629 startingPage "4803" @default.
W1540697629 abstract "Unconjugated redox polymers, such as polyvinylferrocene (PVF), have rarely been used for energy storage due to their low intrinsic conductivity. Conducting polymers with conjugated backbones, though conductive, may suffer from insufficient exposure to the electrolyte due to the often formed nonporous structures. The present work overcomes this limitation via simultaneous electropolymerization of pyrrole and electroprecipitation of PVF on electrode surfaces. This synthesis method relies on the π–π stacking interactions between the aromatic pyrrole monomers and the metallocene moieties of PVF. This fabrication process results in a highly porous polymer film, which enhances the ion accessibility to polypyrrole (PPy). PPy serves as a “molecular wire,” improving the electronic conductivity of the hybrid and the utilization efficiency of ferrocene. The PVF/PPy hybrid exhibited a specific capacitance of 514.1 F g−1 , which significantly exceeds those of PPy (27.3 F g−1) and PVF (79.0 F g−1), respectively. This approach offers an alternative to nanocarbon materials for improving the electronic conductivity of polymer hybrids, and suggests a new strategy for fabricating nanostructured polymer hybrids. This strategy can potentially be applied to various polymers with π-conjugated backbones and redox polymers with metallocene moieties for applications such as energy storage, sensing, and catalysis." @default.
W1540697629 created "2016-06-24" @default.
W1540697629 creator A5019039002 @default.
W1540697629 creator A5043093313 @default.
W1540697629 creator A5046348268 @default.
W1540697629 creator A5063259943 @default.
W1540697629 creator A5082487683 @default.
W1540697629 date "2015-06-24" @default.
W1540697629 modified "2023-10-18" @default.
W1540697629 title "Electrochemically Nanostructured Polyvinylferrocene/Polypyrrole Hybrids with Synergy for Energy Storage" @default.
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W1540697629 doi "https://doi.org/10.1002/adfm.201501041" @default.
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