An efficient hybrid supercapacitor based on Zn–Mn–Ni–S@NiSe core–shell architectures

Literature Information

Publication Date 2020-12-26
DOI 10.1039/D0SE01665A
Impact Factor 6.367
Authors

Akbar Mohammadi Zardkhoshoui, Saied Saeed Hosseiny Davarani


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Abstract

To design a supercapacitor with fascinating properties, the development and fabrication of innovative electrode materials with interesting architectures are highly desirable. In this work, hierarchical Zn–Mn–Ni–S@NiSe assembled from Zn–Mn–Ni–S nanowires and NiSe nanosheets has been grown on nickel foam via a consecutive hydrothermal reaction and electrodeposition route for supercapacitors. Owing to the tight contact between Zn–Mn–Ni–S and NiSe, Zn–Mn–Ni–S@NiSe offers an efficient nanoporous network, appropriate channels, and desirable conductivity for the rapid transfer of electrons as well as ions for the reversible reaction. In a three-electrode configuration, the optimized Zn–Mn–Ni–S@NiSe electrode shows higher capacity (358 mA h g−1), rate performance (71.8% up to 24 A g−1), and cyclability (90.1% capacity retention after 10 000 cycles) than the optimized Zn–Mn–Ni–S electrode (287 mA h g−1 at 2 A g−1 and 64.8% up to 24 A g−1). Besides, a promising hybrid supercapacitor device using optimized Zn–Mn–Ni–S@NiSe and activated carbon demonstrates a desirable energy density (ED) of 59.6 W h/kg at 805.4 W kg−1 and considerable cyclability of 86.6% after 10 000 cycles. Thus, this research proposes a favorable route for developing new electrodes for energy storage systems.

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