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Multiscale porous graphene oxide network with high packing density for asymmetric supercapacitors

JOURNAL OF MATERIALS RESEARCH(2017)

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Abstract
In this article, we report the synthesis of highly packed graphene oxide-based electrodes (1.25 g/cm 3 ) with a three-dimensional multiscale porous structure (denoted as MPGP) through the ZnO nanodisk (100–500 nm) template and subsequent H 2 O 2 treatment. Consequently, MPGP with a macropore diameter of 100 nm and a mesopore diameter of 2–3 nm was fabricated as the electrode for supercapacitors (SCs). Significantly, the MPGP achieves a high-volumetric capacitance of 327 F/cm 3 (262 F/g) at a current density of 1 A/g and retains 240 F/cm 3 (192 F/g) at a current density of 16 A/g in 3 M KOH solution. More importantly, it was also capable of delivering a high-volumetric energy density as well as power density in a SC device. Our work shows that the capability of preparing highly packed graphene-based electrodes with high-volumetric as well as specific capacitance is critical for the application of SCs.
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Key words
graphene oxide,supercapacitors,high packing density
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