Double Potassium Salt Self‐Activation Strategy to Construct Hierarchical Porous Carbon for Zinc Ion Hybrid Capacitor

Abstract Hierarchical porous carbon exhibits enormous potential as a cathode for zinc ion hybrid capacitor (ZIHC). In this work, three‐dimensional (3D) hierarchical porous carbon is prepared by pyrolysis of potassium stearate and potassium polyacrylate using a self‐activation strategy. Because of the unique 3D interconnected hierarchical porous framework, high specific surface area and plentiful oxygen functional groups, the HPC‐700 electrode shows a specific capacitance of 378.67 F g −1 and excellent cycle stabilization with the capacity retention rate of 98.1% after 10000 cycles. Moreover, the HPC‐700//HPC‐700 symmetrical supercapacitor provides an energy density of 25.41 Wh kg −1 and superior electrochemical stability and good cycle performance. More interestingly, the assembled HPC‐700//ZnSO 4 (aq)//Zn hybrid capacitor delivers a capacitance of 439.2 F g −1 (195.2 mAh g −1 ) and an energy density of 156.18 Wh kg −1 (99.97 W kg −1 ). The ZIHC shows excellent electrochemical performance with 96.5% initial capacity after 10 000 cycles. Overall, the research highlights an efficient and facile strategy to prepare HPC cathode materials for high‐performance ZIHC.