Bifunctional CuCo2O4/CoOOH as a synergistic catalyst supported on nickel foam for alkaline overall water splitting

Designing efficient, affordable and stable bifunctional electrocatalysts is critical for electrochemical water splitting. Herein, distinctive CuCo2O4/CoOOH supported on 3D porous nickel foam was synthesized successfully via annealing and green hydrothermal strategies. Importantly, this unique cataly...

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Bibliographic Details
Published in:Journal of alloys and compounds 2022-12, Vol.929, p.167367, Article 167367
Main Authors: Wang, Congli, Jiu, Hongfang, Zhang, Lixin, Song, Wei, Zhang, Yufang, Wei, Hao, Xu, Qianwen, Che, Sicong, Guo, Zhixin, Qin, Yaqi
Format: Article
Language:English
Subjects:
Catalysts
Electrical resistivity
Electrocatalysts
Electrolysis
Hydrogen reaction
Metal foams
Nanosheet
Nickel
Oxygen reaction
Reaction kinetics
Substrates
Synergistic effect
Water splitting
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Summary:Designing efficient, affordable and stable bifunctional electrocatalysts is critical for electrochemical water splitting. Herein, distinctive CuCo2O4/CoOOH supported on 3D porous nickel foam was synthesized successfully via annealing and green hydrothermal strategies. Importantly, this unique catalyst with the synergistic effect can exhibit superior electrocatalytic activity, which only requires 125 mV (η10) for HER and 217 mV (η20) for OER. Remarkably, CuCo2O4/CoOOH/NF shows a voltage of 1.583 V to drive a current density of 10 mA cm−2. The excellent performances can be ascribed to the synergistic effect between CuCo2O4/NF and CoOOH/NF. In addition, the high-conductive 3D nickel foam substrate and the reciprocally permeated nanosheet can improve electrical conductivity, accelerate reaction kinetics and provide massive exposed active sites. This study provides a novel insight into the facile preparation of bifunctional electrocatalysts, which boosts the electrocatalytic performance for electrolysis of water. [Display omitted] •CuCo2O4/CoOOH supported on nickel foam is prepared by green hydrothermal method.•It needs ultralow overpotentials for HER (η10 =125 mV) and OER (η20 =217 mV).•The outstanding performances are attributed to the strong synergistic effect, nanosheet structure, nickel foam substrate.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2022.167367