期刊
RSC ADVANCES
卷 7, 期 11, 页码 6648-6659出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c6ra27331a
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资金
- DST, India [IF131153]
- CSIR-INDIA [CSC0101]
All-solid-state asymmetric supercapacitors have received significant attention for being flexible, bendable, and wearable energy storage devices due to their optimum energy and power densities. Nanostructured transition-metal chalcogenides have been used as positive electrodes in the asymmetric supercapacitors due to their high theoretical capacitance, good rate capability, and excellent cycling stability. Electrochemically active dumb-bell shaped cobalt sulfide (CoS) particles were prepared via solvothermal decomposition of cobalt hexacyanoferrate (CoHCF). The dumb-bell shaped particles (2.1 to 2.7 mu m in length with a lateral size of similar to 1.3 mu m) were formed via the self-assembly of 10-20 nm sized CoS nanoparticles. CoS exhibited a high specific capacitance of 310 F g(-1) at a current density of 5 A g(-1) and 95% of capacitance retention after 5000 charge-discharge cycles in a three-electrode system. An allsolid- state flexible asymmetric supercapacitor (ASC) device was fabricated using CoS and activated carbon as positive and negative electrodes, respectively. The PVA/KOH-based solid-state electrolyte offers high flexibility to the all-solid-state supercapacitor device. It exhibited a maximum cell voltage of 1.8 V with a high specific capacitance of 47 F g(-1) at a current density of 2 A g(-1). Moreover, the fabricated device delivered a high energy density of 5.3 W h kg(-1) and a high power density of 1800 W kg(-1) with an excellent electrochemical stability of 92% even after 5000 cycles at 10 A g(-1) current density. Furthermore, the solvothermal decomposition strategy for the preparation of metal sulfide could be applicable for the preparation of other metal sulfide electrode materials.
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