Abstract
Ni3S2 nanowires were synthesized in situ using a one-pot hydrothermal reaction on Ni foam (NF) for use in supercapacitors as a positive electrode, and various contents (0.3−0.6 mmol) of Co(OH)2 shells were coated onto the surfaces of the Ni3S2 nanowire cores to improve the electrochemical properties. The Ni3S2 nanowires were uniformly formed on the smooth NF surface, and the Co(OH)2 shell was formed on the Ni3S2 nanowire surface. By direct NF participation as a reactant without adding any other Ni source, Ni3S2 was formed more closely to the NF surface, and the Co(OH)2 shell suppressed the loss of active material during charging–discharging, yielding excellent electrochemical properties. The Co(OH)2–Ni3S2/Ni electrode produced using 0.5 mmol Co(OH)2 (Co0.5–Ni3S2/Ni) exhibited a high specific capacitance of 1837 F g−1 (16.07 F cm−2) at a current density of 5 mA cm−2, and maintained a capacitance of 583 F g−1 (16.07 F cm−2) at a much higher current density of 50 mA cm−2. An asymmetric supercapacitor (ASC) with Co(OH)2–Ni3S2 and active carbon displayed a high-power density of 1036 kW kg−1 at an energy density of 43 W h kg−1 with good cycling stability, indicating its suitability for use in energy storage applications. Thus, the newly developed core–shell structure, Co(OH)2–Ni3S2, was shown to be efficient at improving the electrochemical performance.
Highlights
IntroductionThe main concerns in society are efficient energy storage and clean energy
The main concerns in society are efficient energy storage and clean energy.Supercapacitors are the most ideal devices for use in clean energy storage, owing to their low costs, rapid discharge rates, and high electrochemical activities, in addition to mechanical and thermal stabilities [1,2]
By direct Ni foam (NF) participation as a reactant, without adding any other Ni source, Ni3 S2 was formed more closely to the NF surface, and the Co(OH)2 shell suppressed the loss of active material during charging–discharging
Summary
The main concerns in society are efficient energy storage and clean energy. Nanomaterials 2022, 12, 34 sulfides exhibit excellent electrochemical energy storage and fascinating properties, such as excellent redox reversibility, conductivities, and capacitances [12,13,14,15]. Chen et al used a two-step hydrothermal reaction to fabricate the core–shell structures of Ni3 S2 @Co(OH) nanowires formed directly on NF for use in asymmetric supercapacitors (ASCs), and the Ni3 S2 @Co(OH) electrode exhibiting a high SC of 2139.4 F g−1 at 2 mA cm−2 , and maintaining a capacitance of 1139.4 F g−1 at. The core–shell structured Co(OH)2 −Ni3 S2 was synthesized in situ using a one–step hydrothermal reaction on NF as a binder-free positive electrode for use in supercapacitors. Co(OH)2 −Ni3 S2 and AC as the positive electrode and negative electrode, respectively
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