A homologous N/P-codoped carbon strategy to streamline nanostructured MnO/C and carbon toward boosted lithium-ion capacitors
2023
Lei, Da | Hou, Zhidong | Li, Na | Cao, Yunjing | Ren, Lingbo | Liu, Huanyan | Zhang, Yu | Wang, Jian-Gan
Lithium-ion capacitors (LICs) are drawing increasingly attention owing to their attractive virtues of high energy/power density and long lifetime. However, overcoming the kinetic mismatch of battery-type anodes and capacitor-type cathodes remains an intractable challenge. In this work, we report a homologous N/P-codoped carbon (NPC) strategy to boost lithium-ion capacitors based on nanostructured MnO/C anodes and carbon cathodes. A controllable phytic acid-assisted polymerization method based on the MnO₂ precursors is developed to streamline the fabrication of MnO/NPC core-shell nanowires and NPC nanotubes (NPCT). The NPC is of profound benefit for regulating the surface functionality, porosity, and electron transfer kinetics, which greatly minimizes the kinetic mismatch. The battery-type MnO/NPC anode retains a large capacity of 314 mAh g⁻¹ at a high-rate of 5 A g⁻¹, while the capacitor-type NPCT cathode delivers a 110 mAh g⁻¹ at 0.1 A g⁻¹. The as-built LICs exhibit a high energy density of 145 Wh kg⁻¹, a high power density of 10 kW kg⁻¹, and good cycling lifespan. The present study will enlighten the significance of N/P dual-doping in designing high-performance LICs.
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