Synthesis of urchin-like Ni3Si2O5(OH)(4) hierarchical hollow spheres/GO composite with enhanced electrochemical properties for high-performance hybrid supercapacitors

摘要

Designing scientific and reasonable electrode materials is a valid method to enhance the electrochemical properties of supercapacitors. Herein, urchin-like Ni3Si2O5(OH)(4) (NiSi) hierarchical hollow spheres were synthesized using SiO2 spheres as a template via hydrothermal reaction, and then NiSi was combined with graphene oxide (GO) sheets to fabricate an NiSi/GO composite via electrostatic attraction. Furthermore, the influence of the quantity of GO on the electrochemical properties of the NiSi/GO materials was investigated in detail. All the results showed that the NiSi/GO composite dramatically enhanced the electrochemical performance of the urchin-like NiSi hollow spheres. When the NiSi/GO composite was evaluated as a single electrode in 3 M KOH aqueous electrolyte, it exhibited a specific capacitance of 165 F g(-1) at a current density of 0.5 A g(-1) and cyclic retention of 84% after 5000 cycles. The charge storage mechanism of the NiSi/GO composite is attributed to the faradaic battery-type energy-storage mechanism of NiSi and double-layer capacitive behavior of GO. The hybrid supercapacitor (HSC) device assembled using the NiSi/GO composite and activated carbon (AC) exhibited a capacitance of 109 mF cm(-2) (18 F g(-1)) at a scan rate of 1 mA cm(-2), cyclic retention of 71% after 5000 cycles and energy density of 0.37 W h m(-2) (6 W h kg(-1)) at a power density of 1.94 W m(-2) (31.8 W kg(-1)). All these findings suggest that the NiSi/GO composite displays a satisfactory charge storage performance and it can be used as a potential electrode material for high-performance supercapacitors.