Porous V2O3@C composite anodes with pseudocapacitive characteristics for lithium-ion capacitors

Vanadium trioxide materials have attracted great interest due to their low cost and high theoretical lithium storage capacity. In this work, porous V2O3@C composites were prepared via a NaCl template-assisted freeze-drying strategy. Benefiting from the unique three-dimensional porous carbon-based structure, the V2O3@C composite anode exhibits a high-rate pseudocapacitive behavior. A lithium-ion capacitor (LIC) based on this V2O3@C composite anode and a commercial AC cathode was constructed. Results show that the as-constructed device exhibits high energy density, high power density as well as long cycle stability, indicating the great promise of our porous V2O3@C composites for the high-performance LICs.

Automated summary

In this study, porous V2O3@C composites were prepared using a NaCl template-assisted freeze-drying strategy, showing high-rate pseudocapacitive behavior. The lithium-ion capacitor based on this composite exhibited high energy density, high power density, and long cycle stability, indicating great potential for high-performance LICs.