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Rational design of nickel cobalt sulfide/cobalt sulfide sheet-on-sheet structure for asymmetric supercapacitors

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Abstract Nickel cobalt sulfide (Ni-Co-S) is one of the most potential electrocapacitive materials for energy storage devices, owing to the high electrical conductivity and multiple oxidation states. Large surface area… Click to show full abstract

Abstract Nickel cobalt sulfide (Ni-Co-S) is one of the most potential electrocapacitive materials for energy storage devices, owing to the high electrical conductivity and multiple oxidation states. Large surface area and efficient charge/ion transfer routes are dispensable for an efficient electrocapacitive material. The rational-designed core/shell structures are fabricated in this work by first synthesizing the Ni-Co-S nanosheet array on the Ni foam using a hydrothermal reaction as the core and then depositing the cobalt sulfide (Co-S) nanosheets as the shell via electrodeposition. The electrodepositing cycles are varied to synthesize the Co-S shell with different sizes and densities. The highest specific capacitance (CF) of 8.47 F/cm2corresponding to the capacity of 1.65 mAh/cm2are obtained at 5 mV/s for the optimized Ni-Co-S/Co-S electrode prepared using 40 cycles for electrodeposition, due to the larger surface area of the sheet-on-sheet structure and the suitable size of the gaps between nanosheets for efficient ions diffusion. A CF value of714.2 mF/cm2 at 5 mA/cm2, a potential window of 1.6 V, and a CF retention of 65% after 5000 cycles repeated charge/discharge process are achieved for an asymmetric supercapacitor assembled using the optimized Ni-Co-S/Co-S electrode as the positive electrode and an activated carbon electrode as the negative electrode.

Keywords: nickel cobalt; sheet sheet; sheet; cobalt sulfide; electrode

Journal Title: Electrochimica Acta
Year Published: 2018

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