Abstract
Polyaniline (PANI)/graphene oxide (GO) composites were synthesized via in situ polymerization of aniline in the presence of GO. The effect of microwave treatment of graphite on the electrical conductivity and electrochemical properties of PANI/GO composites was highlighted, and the morphology and microstructure were subsequently characterized using transmission electron microscopy, scanning electron microscopy, Fourier-transformed infrared spectroscopy, X-ray diffraction, and thermogravimetric analysis. The results demonstrated that microwave treatment of graphite imparted a well-dispersed, highly ordered layered structure to the as-prepared GO, and in turn facilitated strong bonding between the GO and PANI nanosheets, which may be responsible for the improved electrical conductivity and electrochemical properties of the resulting PANI/GO composites. The desired PANI/GO composites possessed an electrical conductivity of 508 S/m, an areal capacitance of 172.8 mF/cm2, and a retained capacitance of 87.4% after cycling, representing percentage increases of 102, 232, and 112, respectively, as a result of the microwave treatment of graphite. The resulting composites are promising electrode materials for high-performance and ecofriendly electrical energy storage devices.
Highlights
In recent years, there has been an ever-increasing demand for environmentally friendly and high-performance energy storage devices [1]
Treatment was proposed andand demonstrated to improve the the electrical conductivity and electrochemical properties of composites synthesized by electrical conductivity and electrochemical properties of PANI/Graphene oxide (GO) composites synthesized by a softa soft chemical method
It wasItevident that a that homogeneous composite was achieved by the presence of PANI
Summary
There has been an ever-increasing demand for environmentally friendly and high-performance energy storage devices [1]. Conducting polymers (ICPs) [4] (e.g., polyaniline (PANI) [5], polypyrrole (PPy) [6], and polythiophenes (PT) [7]) have shown promise for application as electrode materials for SCs due to their strategic flexibility and considerable specific capacitance [8]. Among these ICPs, PANI has been regarded as one of the best candidates for electrode materials for its high capacitive characteristics, low cost, and Polymers 2016, 8, 399; doi:10.3390/polym8110399 www.mdpi.com/journal/polymers
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