Preparation of highly active MoNi4 alloys in 3D porous nanostructures and their application as bifunctional electrocatalysts for overall water splitting

Preparation of highly active MoNi4 alloys in 3D porous nanostructures and their application as bifunctional electrocatalysts for overall water splitting

The major challenges of replacing noble-metal electrocatalysts for hydrogen evolution reaction and oxygen evolution reaction in alkaline electrolytes are stability- and kinetics-related. Here we report the synthesis of MoNi4 electrocatalysts covered by MoO2 nanosheets on carbon cloth. Originating fr...

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Bibliographic Details
Published in:Catalysis communications Vol. 159; p. 106350
Main Authors: Tian, Gaoqi, Wu, Shiwei, Chen, Zhongli, Cao, Yang, Tu, Jinchun, Tian, Xinlong, Huang, Wei, Wang, Jieqiong, Ding, Lei
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2021
Elsevier
Subjects:
Electrocatalytic activity
Hydrogen evolution reaction
MoNi4 alloy
Oxygen evolution reaction
Porous nanostructure
Water splitting
Hydrogen evolution reaction
Water splitting
Electrocatalytic activity
Oxygen evolution reaction
Porous nanostructure
MoNi4 alloy
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Summary:The major challenges of replacing noble-metal electrocatalysts for hydrogen evolution reaction and oxygen evolution reaction in alkaline electrolytes are stability- and kinetics-related. Here we report the synthesis of MoNi4 electrocatalysts covered by MoO2 nanosheets on carbon cloth. Originating from the high intrinsic catalytic activity of MoNi4 nanoalloy, the 3D porous structure provides many exposed active sites and high conductivity. The sample exhibited high activity with an overpotential of 23 mV and 253 mV, a low Tafel slope of 47 mV dec−1 and 136 mV dec−1 at a current density of 10 mA cm−2 for HER and OER, respectively. [Display omitted] •MoNi4/MoO2/CC with 3D porous nanostructures were successfully prepared.•MoNi4/MoO2/CC exhibited high activity and good stability during HER and OER.•MoNi4 alloys in 3D porous nanostructures is active for overall water splitting.
ISSN:1566-7367
1873-3905
DOI:10.1016/j.catcom.2021.106350