Abstract
A composite material of reduced graphene oxide (rGO) and Hong Kong University of Science and Technology-1 (HKUST-1) metal organic framework (MOF) was produced and used as the supercapacitor electrode material. Pure HKUST-1 has a microporous structure with poor conductivity limiting its electrochemical applications while loading rGO to HKUST-1 leads to a novel composite with a mesoporous structure and good electrochemical properties. 10wt.% rGO/HKUST-1 has a high BET surface area of 1241m2g−1, a specific pore volume of 0.78cm3g−1, and an average pore diameter of 8.2nm, which is a proper pore size to allow uptaking and releasing of electrolytes. A half-cell electrode of 10wt.% rGO/HKUST-1 coated on flexible carbon fiber paper (CFP) exhibits a high specific capacitance of 385Fg−1 at 1Ag−1 while pure HKUST-1 stores only 0.5Fg−1. A 1.8″×4.0″ symmetric solid-type supercapacitor of the 10wt.%rGO/HKUST-1 exhibits a specific power of 3100Wkg−1 and a specific energy of 42 Wh kg−1. The supercapacitor can practically supply electricity to a spinning 3-V motor over 9-min discharging time.
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