Manganese oxide/graphene oxide composites for high-energy aqueous asymmetric electrochemical capacitors
2013
Abstract A high-energy aqueous asymmetric electrochemical capacitor was developed using manganese dioxide (α-MnO 2 )/graphene oxide (GO) nanocomposites. The nanostructured α-MnO 2 was prepared from micron-sized commercial electrolytic manganese dioxide (EMD) via a hydrothermal reaction in the presence and absence of sodium dodecylsulphate (SDS), α-MnO 2(SDS) and α-MnO 2 , respectively. Unlike the as-prepared α-MnO 2 , the presence of SDS during the hydrothermal reaction conferred different morphologies on the intermediate precursors for the α-MnO 2(SDS) . Also, the XRD patterns showed that the α-MnO 2(SDS) are more crystalline than the as-prepared α-MnO 2 . The superior electrochemical performance of the α-MnO 2(SDS) /GO composite (280 F g −1 , 35 Wh kg −1 , and 7.5 kW kg −1 at 0.5 A g −1 ) coupled with excellent long cycle life clearly indicates that this electrode system has the potential of being developed as an efficient aqueous asymmetric electrochemical capacitor. The high performance of the α-MnO 2(SDS) /GO composite was interpreted in terms of the enhanced crystallinity of the α-MnO 2(SDS) . Interestingly, the electrochemical performance is comparable to or even better than those reported for the more conductive graphene/MnO 2 composites.
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