A simple and controllable strategy has been developed to fabricate CoMoO4 microplates/CoMoO4 mi-croprisms (CMCMs) structures on Ni foam via a facile, cost-effective, two-step hydrothermal route. The as-grown 3D architecture exhibited excellent areal capacitance of 4.33 F cm ? 2 at a galvanostatic charge-discharge current density of 50 mA cm ? 2 (6 A g ? 1) and outstanding cycle performance with only 2.8%degradation over 6500 cycles in the 3 M KOH solution. The asymmetric all-solid-state supercapacitors based on activated carbon (AC) and CMCMs exhibited much better electrochemical performance than the symmetric counterpart, showing an areal capacitance of 95.22 mF cm ? 2 at the current density of 12 mA cm?2 and excellent cycling stability with 92.27%of the initial capacitance after 5000 cycles. These results may provide useful guidelines for materials selection and configuration designs for the novel energy storage devices based on CoMoO4 components and substrates.
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