Insight into the electronic modulation on nickel-cobalt bimetallic phosphates towards high-efficiency electrocatalytic hydrogen evolution

The excessive laborious water dissociation and proton deficiency on the active sites are the major obstruction towards the industrial application of alkaline hydrogen evolution reaction (HER) electrocatalysts. Reasonably design of the catalytic configuration can flexibly adjust the electronic struct...

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Published inJournal of alloys and compounds Vol. 1002; p. 175259
Main Authors Liu, Lilai, Meng, Fan, Wang, Hui, Ma, Shuanshuan, Lukyanov, Daniil, Zhu, Weirun, Li, Yaqiang, Ren, Penghui, Kondratiev, Veniamin, Yang, Peixia, Li, Ruopeng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.10.2024
Subjects
Electrocatalytic hydrogen evolution
Kinetics improvement
Nickel-Cobalt phosphate
Water dissociation
Nickel-Cobalt phosphate
Electrocatalytic hydrogen evolution
Water dissociation
Kinetics improvement
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Abstract The excessive laborious water dissociation and proton deficiency on the active sites are the major obstruction towards the industrial application of alkaline hydrogen evolution reaction (HER) electrocatalysts. Reasonably design of the catalytic configuration can flexibly adjust the electronic structure and thus enhancing their intrinsic activity. In this work, we report that the composite film NiCo(PO4)x coated on the nickel foam substrate (NiCo(PO4)x/NF) exhibits considerable activity and stability towards HER in harsh alkaline media, with an overpotential of only 68 mV to deliver 10 mA cm−2. Also thanks to the excellent urea oxidation reaction catalytic performance, the as-constructed NiCo(PO4)x/NFǀǀNiCo(PO4)x/NF electrolyzer and an anion exchange membrane microflow electrolysis cell enable sustainable alkaline urea electrolysis for energy-saving hydrogen production. In-depth characterizations and theoretic calculations demonstrate that the coupling bimetalic sites with phosphate unit creats appropriate metal-oxygen 3d-2p orbital hybridization state, thereby enhancing the HER kinetics comprehensively, including water dissociation and proton adsorption/desorption. This work brought forth a cost-effective and self-supporting metallic-phosphate electrocatalyst for efficient hydrogen evolution. •One-step electrodeposition of NiCo(PO4)x/NF catalyst ensures high activity, conductivity, stability, and hydrophilic properties.•Synergistic bimetallic sites and phosphate groups enhance hydrogen evolution reaction kinetics.•Industrial-grade performance achieved in an anion exchange membrane cell with NiCo(PO4)x/NF catalyst.
AbstractList The excessive laborious water dissociation and proton deficiency on the active sites are the major obstruction towards the industrial application of alkaline hydrogen evolution reaction (HER) electrocatalysts. Reasonably design of the catalytic configuration can flexibly adjust the electronic structure and thus enhancing their intrinsic activity. In this work, we report that the composite film NiCo(PO4)x coated on the nickel foam substrate (NiCo(PO4)x/NF) exhibits considerable activity and stability towards HER in harsh alkaline media, with an overpotential of only 68 mV to deliver 10 mA cm−2. Also thanks to the excellent urea oxidation reaction catalytic performance, the as-constructed NiCo(PO4)x/NFǀǀNiCo(PO4)x/NF electrolyzer and an anion exchange membrane microflow electrolysis cell enable sustainable alkaline urea electrolysis for energy-saving hydrogen production. In-depth characterizations and theoretic calculations demonstrate that the coupling bimetalic sites with phosphate unit creats appropriate metal-oxygen 3d-2p orbital hybridization state, thereby enhancing the HER kinetics comprehensively, including water dissociation and proton adsorption/desorption. This work brought forth a cost-effective and self-supporting metallic-phosphate electrocatalyst for efficient hydrogen evolution. •One-step electrodeposition of NiCo(PO4)x/NF catalyst ensures high activity, conductivity, stability, and hydrophilic properties.•Synergistic bimetallic sites and phosphate groups enhance hydrogen evolution reaction kinetics.•Industrial-grade performance achieved in an anion exchange membrane cell with NiCo(PO4)x/NF catalyst.
ArticleNumber 175259
Author Yang, Peixia
Kondratiev, Veniamin
Wang, Hui
Meng, Fan
Lukyanov, Daniil
Li, Ruopeng
Ren, Penghui
Liu, Lilai
Li, Yaqiang
Ma, Shuanshuan
Zhu, Weirun
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Keywords Nickel-Cobalt phosphate
Electrocatalytic hydrogen evolution
Water dissociation
Kinetics improvement
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SSID ssj0001931
Score 2.4938731
Snippet The excessive laborious water dissociation and proton deficiency on the active sites are the major obstruction towards the industrial application of alkaline...
SourceID crossref
elsevier
SourceType Aggregation Database
Publisher
StartPage 175259
SubjectTerms Electrocatalytic hydrogen evolution
Kinetics improvement
Nickel-Cobalt phosphate
Water dissociation
Title Insight into the electronic modulation on nickel-cobalt bimetallic phosphates towards high-efficiency electrocatalytic hydrogen evolution
URI https://dx.doi.org/10.1016/j.jallcom.2024.175259
Volume 1002
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