3D NiCoW Metallic Compound Nano-Network Structure Catalytic Material for Urea Oxidation DOI Creative Commons
Zhenxing Liang,

Lang Yao,

Yipeng Zhang

et al.

Nanomaterials, Journal Year: 2024, Volume and Issue: 14(22), P. 1793 - 1793

Published: Nov. 7, 2024

Urea shows promise as an alternative substrate to water oxidation in electrolyzers, and replacing OER with the Oxidation Reaction (UOR, theoretical potential of 0.37 V vs. RHE) can significantly increase hydrogen production efficiency. Additionally, decomposition urea help reduce environmental pollution. This paper improves inherent activity catalytic materials through morphology electronic modulation by incorporating tungsten (W), which accelerates electron transfer, enhances structure neighboring atoms create a synergistic effect, regulates adsorption process active sites intermediates. NiCoW ultra-thin nanosheet were prepared using ultrasonic-assisted NaBH

Language: Английский

3D NiCoW Metallic Compound Nano-Network Structure Catalytic Material for Urea Oxidation DOI Creative Commons
Zhenxing Liang,

Lang Yao,

Yipeng Zhang

et al.

Nanomaterials, Journal Year: 2024, Volume and Issue: 14(22), P. 1793 - 1793

Published: Nov. 7, 2024

Urea shows promise as an alternative substrate to water oxidation in electrolyzers, and replacing OER with the Oxidation Reaction (UOR, theoretical potential of 0.37 V vs. RHE) can significantly increase hydrogen production efficiency. Additionally, decomposition urea help reduce environmental pollution. This paper improves inherent activity catalytic materials through morphology electronic modulation by incorporating tungsten (W), which accelerates electron transfer, enhances structure neighboring atoms create a synergistic effect, regulates adsorption process active sites intermediates. NiCoW ultra-thin nanosheet were prepared using ultrasonic-assisted NaBH

Language: Английский

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