N-rich biomass carbon derived from hemp as a full carbon-based potassium ion hybrid capacitor anode

Potassium ion hybrid capacitors have the advantages of high energy density, high power density, and low cost, and are expected to replace expensive lithium ion storage devices in large-scale applications. Here, an innovative nitrogen-rich biomass carbon (N-CHC) is prepared using urea as the etchant and hemp core as the raw material, which has a high specific surface area of 1185.3 m2 g-1 and nitrogen content of 8.56%. In addition, it shows a capacity of 442.4 mAh g-1 as a potassium ion half-cell anode at 30 mA g-1. Even under the high current test of 2000 mA g-1, N-CHC also shows excellent performance (175.0 mAh g-1). Further, the good rate performance is attributed to the large-scale capacitance control by analyzing reaction process kinetics. And the constant current intermittent titration technique (GITT) results show that N-CHC has a larger K+ diffusion coefficient than unetched biomass carbon. The maximum energy density of the full carbon-based hybrid capacitor composed of N-CHC anode and activated carbon cathode is 127.36 Wh kg- 1, and the maximum power density is 2371 W kg- 1.

Automated summary

In this study, an innovative nitrogen-rich biomass carbon (N-CHC) with high specific surface area and nitrogen content is prepared using a novel method. It shows excellent performance as a potassium ion hybrid capacitor half-cell anode, with good rate performance and a higher diffusion coefficient, indicating potential for large-scale applications.