Journal
JOURNAL OF ENERGY STORAGE
Volume 68, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.est.2023.107736
Keywords
Ultrafast microwave; 2D sheet architectures; Battery-type electrodes; Structure-tunable; Hybrid supercapacitor
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A facile microwave-assisted method was used to fabricate Ni2Co-S 2D sheet materials with hierarchical porosity, which exhibited excellent electrochemical behaviors as battery-type electrodes for hybrid supercapacitors.
NiCo-S has been regarded as a promising battery-type electrode for efficient supercapacitors owing to its hybrid orbitals, abundant reserve and multiple valence states. The tailored morphology and crystalline structure of NiCo-S can be achieved by using microwave methods profiting from the uniform heat distribution. Herein, a facile, atmosphere-free and highly-efficient microwave-assisted method was used to fabricate Ni2Co-S 2D sheet materials with hierarchical porosity and excellent electrochemical behaviours as battery-type electrodes for hybrid supercapacitor. Considerable metal ratio regulation endowed Ni2Co-S specific structure of 2D sheets with metal-nanoparticles and abundant active sites with variable valence state. Based on the simulation results, the low O-H bond energy for Ni2Co-S promoted the deprotonative reaction in the electrochemical charge/discharge process, and the synergistic interaction of Ni and Co at the surface contributed to more free electrons, more active sites for the redox reaction and superior OH- adsorption ability. Ni2Co-S exhibited excellent capacity of 1440 F g-1 at 1 A g-1 and rate retention of 74.3 % 1 to 20 A g-1. In addition, the hybrid supercapacitor assembled by Ni2Co-S delivered a superior energy density of 65.2 Wh kg-1 at 400 W kg-1, along with a stable cycling lifespan with 82 % of capacity retention and 100 % of Coulombic efficiency after 30,000 cycles. The present strategy can modulate NiCo-S phase and structure via ultrafast microwave synthesis, which provides a novel insight for development of high-performance supercapacitors.
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