An efficient hybrid supercapacitor based on Zn–Mn–Ni–S@NiSe core–shell architectures
文献信息
Akbar Mohammadi Zardkhoshoui, Saied Saeed Hosseiny Davarani
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.
期刊推荐

Nature Medicine

Journal of Peptide Science

Russian Chemical Bulletin

Drug Discovery Today

Russian Journal of Coordination Chemistry

Journal of Natural Medicines

Chemistry Education Research and Practice

Current Opinion in Solid State & Materials Science

Russian Journal of Bioorganic Chemistry

Journal of Saudi Chemical Society
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