Matched MnO@C anode and porous carbon cathode for Li‐ion hybrid supercapacitors
Cuihua An, Yueqing Li, Shuai Wu, Lingxiao Gao, Liyang Lin, Qibo Deng, Ning Hu
Abstract
Abstract Holding a promise of achieving high power and energy densities, Li‐ion hybrid electrochemical capacitors present a crucial future direction for energy storage devices. However, technical challenges remain to appropriately couple both high‐power capacitor‐type and high‐energy battery‐type electrode materials within a same device. In addition, the current electrode materials in the device are usually prepared separately, which leads to lengthy preparation, time‐consuming and high‐cost. In this work, we report a simple method to prepare porous carbon materials (PC) with and without MnO nanoparticle cores, which function as very unique anode/cathode pairs for very high‐performance Li ion hybrid supercapacitor. Taking the respective merits of high Li storage capacity from the MnO@C anode and high‐rate performance from the PC cathode, the resulted device exhibits a remarkable energy density of 89 Wh·kg −1 (at 48 W·kg −1 ) and can reach a battery‐inaccessible power density of 18 kW·kg −1 (at 45 Wh·kg −1 ).