▎ 摘　　要

Designing novel multiple composite material with core-shell structure has been demonstrated as an effective method to improve the electrochemical properties of energy storage due to the synergistic effects and structural advantages between the ingredients. Herein, a novel rGO@CuCo2S4@CoS2/NF composite material with core shell structure was synthesized by ZIF-67 derivatives and the solvothermal method. The composite material overcomes the shortcomings of MOF as an electrode material and provides a large contact area for the active materials and the electrolyte solution. The rGO@CuCo2S4@CoS2/NF electrode exhibits an excellent specific capacity is 1101.2 C g(-1) (2447.1 F g 1) at a current density of 1 A g(-1) and outstanding cycling performance after 10,000 cycles (79.2% of the initial value). Meanwhile, a typical asymmetric supercapacitor (ASC) device based on rGO@CuCo2S4@CoS2/NF as the cathode and AC as the anode (rGO@CuCo2S4@CoS2/NF//AC) achieves a maximum energy density of 52.46 Wh kg(-1) with the power density of 750.02 W kg(-1). Moreover, the device maintains the cycle stability of 88.2% after 10,000 cycles, demonstrating that rGO@CuCo2S4@CoS2/NF could be a potential electroactive material in advanced energy storage systems.