Rational construction of ternary ZnNiP arrayed structures derived from 2D MOFs for advanced hybrid supercapacitors and alkaline batteries

Yuan Yang, Shuo Li, Wei Huang, Shuwei Duan, Pengchao Si*, Lijie Ci

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

Exploiting nickel-based phosphide electrodes for next-generation high-performance supercapacitors and secondary batteries with high security has attracted great attentions. Herein, we fabricated binderless ZnNiP electrode based on Ni metal-organic framework and the optimized Zn-doping process, which achieved high electrochemical performance both in hybrid supercapacitor and Zn battery. Encouragingly, the addition of Zn source and the phosphating process make a component synergy with enhanced electronic conductivity, enriched electrochemical active centers and redox reactions. The ZnNiP-0.5 with sturdy construction exhibits a remarkable specific capacity and a good cycling stability in alkaline electrolyte. When assembled to hybrid supercapacitor, the installation delivers a maximum energy density of 67.4 Wh kg−1, a maximum power density of 15.9 kW kg−1, and outstanding cycling performance (88% retention after 10 000 cycles). Additionally, the fabricated Zn battery could achieve discharge voltage of∼ 1.9 V, with an admirable energy density of 529.58 Wh kg−1 and also shows the excellent durability (capacity retention of 91.6% after 3000 cycles). This work offers a feasible route and provides a certain guiding significance for the reasonable design of binder-free electrodes with delicate structures and compositions, which may inspire new significative findings of building electrodes for high-security hybrid supercapacitors and alkaline batteries.
Original languageEnglish
Article number138548
JournalElectrochimica Acta
Volume387
Number of pages10
ISSN0013-4686
DOIs
Publication statusPublished - 2021

Keywords

  • Ternary metal phosphide
  • Arrayed nanostructures
  • Metal-organic frameworks
  • Hybrid supercapacitors
  • Zinc batteries

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