A high-performance battery-like supercapacitor electrode with a continuous NiTe network skeleton running throughout Co(OH)2/Co9S8 nanohybrid

•The electrode with Co(OH)2/Co9S8 nanohybrid growing inside NiTe skeleton is obtained.•The (Co(OH)2/Co9S8)@NiTe/Ni electrode demonstrates long cycle life of 50,000 cycles.•The aqueous or quasi-solid-state ASC delivers energy density exceeding 0.88 mWh cm−2.•The buffer effect of NiTe lays the foundat...

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Bibliographic Details
Published in:Electrochimica acta 2021-01, Vol.365, p.137325, Article 137325
Main Authors: Wu, Baoxin, Zhang, Feifei, Nie, Zhongwu, Qian, Hao, Liu, Peng, He, Hao, Wu, Jianghong, Chen, Zhaoyong, Chen, Shuguang
Format: Article
Language:English
Subjects:
Alternating current
Battery cycles
Battery-like
Buffers
Capacitance
Co(OH)2
Co9S8
Cobalt sulfide
Electrical resistivity
Electrodes
Electron transfer
Energy storage
Flux density
NiTe
Stress concentration
Stress distribution
Supercapacitor
Supercapacitors
Volumetric strain
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Summary:•The electrode with Co(OH)2/Co9S8 nanohybrid growing inside NiTe skeleton is obtained.•The (Co(OH)2/Co9S8)@NiTe/Ni electrode demonstrates long cycle life of 50,000 cycles.•The aqueous or quasi-solid-state ASC delivers energy density exceeding 0.88 mWh cm−2.•The buffer effect of NiTe lays the foundation for cyclic stability of the electrode.•The step-by-step volumetric strain evolutions improve the stress distribution. There has been an ongoing effort in pursuing high-energy-density supercapacitor to facilitate its practical applications in energy storage devices. Currently, constructing a composite electrode using multiple battery-type materials or battery-like capacitive materials has been perceived as a promising solution. On one hand, the rational composition/microstructure design is highly desirable to improve the volumetric stress distribution and enhance the overall electrical conductivity. Accordingly, we develop a battery-like (Co(OH)2/Co9S8)@NiTe/Ni composite electrode, in which the continuous NiTe network skeleton running throughout Co(OH)2/Co9S8 nanohybrid acts as the fast electron transfer channel and the buffer against volumetric strain. The electrode delivers a high areal capacitance of 5.28 F cm−2 at a current density of 10 mA cm−2 and demonstrates a super-long cycle life of 50,000 cycles due to the good electrical conductivity, buffer effect of NiTe skeleton and the capacitance contributions from multiple constituents. Thereafter, the assembled aqueous or quasi-solid-state (Co(OH)2/Co9S8)@NiTe/Ni//AC asymmetric supercapacitor demonstrates high areal energy density exceeding 0.88 mWh cm−2 as well as long cycle life exceeding 35,000 cycles. The fabricated battery-like supercapacitor electrode can be engineered to satisfy the long-term, high-power and high-energy-density application requirements. [Display omitted]
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2020.137325