Construction of hetero-phase Mo2C-CoO@N-CNFs film as a self-supported Bi-functional catalyst towards overall water splitting

The hetero-phase Mo2C-CoO@N-CNFs film is electrospun and exhibit remarkable HER and OER properties as a self-supported bi-functional catalyst towards overall water splitting. [Display omitted] •A self-standing Mo2C-CoO@N-CNFs film catalyst is electrospun for both HER and OER.•Nanoscale hetero-phase...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2023-01, Vol.451, p.139025, Article 139025
Main Authors: Gong, Tianyu, Zhang, Jinyang, Liu, Yang, Hou, Linrui, Deng, Jianlin, Yuan, Changzhou
Format: Article
Language:English
Subjects:
Electrospun film
Hetero-phase Mo2C-CoO
Overall water splitting
Self-supported catalyst
Synergistic effect
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Summary:The hetero-phase Mo2C-CoO@N-CNFs film is electrospun and exhibit remarkable HER and OER properties as a self-supported bi-functional catalyst towards overall water splitting. [Display omitted] •A self-standing Mo2C-CoO@N-CNFs film catalyst is electrospun for both HER and OER.•Nanoscale hetero-phase Mo2C-CoO particles are well-distributed in N-doped carbon nanofiber film.•Mo2C-CoO@N-CNFs film owns good wettability, multi-pore structure and high electrical conductivity/active sites.•The Mo2C-CoO hetero-phase accelerates the kinetics of HER and reduces energy barrier of OER.•The bi-function Mo2C-CoO@N-CNFs-8 film displays superb catalytic for alkaline overall water splitting. It is an enormous challenge to develop low-cost non-noble metal bi-functional catalysts toward overall water splitting. The efficient water decomposition electrocatalysts need both intrinsic activities determined by electronic structure and superb mass transfer ability. For this, in the contribution, an efficient self-supported bi-functional catalyst, i.e., nanoscale hetero Mo2C-CoO encapsulated in N-doped carbon nanofibers (Mo2C-CoO@N-CNFs), is designed and fabricated with facile electrospinning avenue. Density functional theory and electrochemical investigation manifest that the synergistic effect of bimetallic Mo/Co accelerates kinetics of hydrogen evolution reaction (HER) and lowers the energy barrier of oxygen evolution reaction (OER). Thanks to the structural and compositional merits, the optimized integrated Mo2C-CoO@N-CNFs film demonstrates remarkable catalytic activities in both OER and HER, and renders a current density of 10 mA cm−2 at 1.56 V when used for alkaline whole water cracking. The design concept here provides insights for future rational construction of advanced water decomposition catalysts.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2022.139025