Jian-Jun Wang

TL;DR: A facile and inexpensive chemical-acid-etching approach has been developed to activate the carbon cloth as an electrode for supercapacitor, which exhibited outstanding mechanical flexibility and the capacity remained nearly unchanged after 1000 bending cycles.

TL;DR: A reversible Zn//(Na,Mn)V8O20·nH2O system is reported, which exhibits an outstanding electrochemical performance and is ascribed to the Mn2+/Mn3+‐ induced high electrical conductivity and Na+‐induced fast migration of Zn2+.

TL;DR: A novel design of hierarchical electrocatalyst based on Ni3 FeN, where the presence of carbon fiber cloth as a scaffold can effectively alleviate the aggregation of Ni3FeN nanostructure and form three-dimensional conducting networks to enlarge the surface area and simultaneously enhance the charge transfer.

TL;DR: This work provides insights into the specific role of the Lorentz force in suppressing the recombination of electron–hole pairs in their initial photogenerated states and suggests that this suppression would increase the population of charge carriers that would subsequently be transported in the semiconductor.

TL;DR: In this paper, high performance carbon nanoparticles for light harvesting have been synthesized via a facile and efficient method, by the in-situ coating of the nanoparticles on a commercial thermoelectric generator, a high-efficient STEG was constructed.