Co-doped SnS microsphere decorated carbon nanofiber flexible films for supercapacitor applications

SnS is an ideal material for supercapacitors because of its unique layered structure and excellent electrochemical performance, but the research of SnS based electrode materials of flexible self-supporting supercapacitors has been rarely exploited. In this study, microsphere like Co doped SnS grown on carbon nanofibers (Co-SnS@CNF) was prepared by electrospinning, hydrothermal method and annealing treatment. Co-SnS@CNF has great flexibility, high specific capacitance, excellent rate performance and cycle stability. Specifically, the specific capacitance is 750 F g- 1 at the current density of 1 A g- 1. The special microsphere structure with more electrochemical active sites and lower resistance of ion and charge transfer by Co doping are responsible for the superior electrochemical performances. Furthermore, when assembled Co-SnS@CNF as the symmetrical supercapacitor device, the energy density of 20.89 Wh Kg-1 and the power density of 376 W Kg-1 are achieved at the current density of 1 A g- 1, while showing ultra-high cycle stability. Therefore, the Co-SnS@CNF offers excellent application potential for flexible self-supporting supercapacitors.

Automated summary

In this study, microsphere-like Co-doped SnS grown on carbon nanofibers (Co-SnS@CNF) was prepared by electrospinning, hydrothermal method, and annealing treatment. Co-SnS@CNF exhibits excellent electrochemical performance due to the special microsphere structure with more electrochemical active sites and lower resistance of ion and charge transfer by Co doping. The assembled Co-SnS@CNF as a symmetrical supercapacitor device achieves an energy density of 20.89 Wh Kg-1 and a power density of 376 W Kg-1 at a current density of 1 A g-1, while demonstrating ultra-high cycle stability. Therefore, Co-SnS@CNF shows great potential for application in flexible self-supporting supercapacitors.