Hypercrosslinking-induced self-assembled carbon nanospheres: a synergistic system integrating hollow structures, micro–mesopores, and nitrogen doping for supercapacitors
Key Points
Carbon nanospheres show improved energy storage due to their unique hollow structure and nitrogen doping, enhancing performance.
The synthesis process utilizes hypercrosslinking to create a blend that integrates micro–mesopores effectively.
This approach allows for the formation of hierarchical structures, optimizing the properties for supercapacitor applications.
Further exploration is needed to assess long-term stability and performance in practical applications.
Abstract
Carbon nanospheres integrating hollow architecture, hierarchical micro–mesopores, and nitrogen doping were synthesized using a hypercrosslinking-induced blending self-assembly approach.
Hypercrosslinking-induced self-assembled carbon nanospheres: a synergistic system integrating hollow structures, micro–mesopores, and nitrogen doping for supercapacitors | Synapse