Abstract

To achieve high energy storage on three-dimensional (3D) structures at low cost, materials with high power and long cycle life characteristics have to be developed. We synthesized ZnCo₂ O₄ /reduced graphene oxide (rGO) binary composites in commercial sponges. ZnCo₂ O₄ nanosheets were grown on the surface of GO/sponge through a hydrothermal reaction. The resulting flexible, free-standing ZnCo₂ O₄ /rGO/sponge electrodes were used as the electrodes in a symmetric supercapacitor. ZnCo₂ O₄ /rGO/sponge electrodes have a large specific capacitance of 1116.6 F g^-1 at a scan rate of 2 mV s^-1 in aqueous electrolyte. The all-solid-state flexible supercapacitor is assembled based on ZnCo₂ O₄ /rGO/sponge electrodes, which show excellent electrochemical performances with a specific capacitance of 143 F g^-1 at a current density of 1 A g^-1 . The as-fabricated supercapacitor also exhibits excellent cycling stability (93.4 % capacitance retention after 5000 cycles) and exceptional mechanical flexibility. These results demonstrate the potential of ZnCo₂ O₄ /rGO/sponge as an electrode in flexible, high-performance supercapacitors.