Synergistically EnhancedNi3Co1(OH)x@Ni3S2 HeterojunctionCatalyst for High-Performance Ethanol Electrooxidation

Yufeng Zhang (195768); Rong Xu (296325); Qing Shao (50505); Guokang Luo (22189504); Jiahao Liu (2398594); Xin Chen (14149); Shan-shan Yu (200890); Shaoxian Liu (5506313); Jin Zhang (53297); Di Liu (30843); Wei Zhu (23646)

JOURNAL ARTICLE

Synergistically EnhancedNi₃Co₁(OH)_x@Ni₃S₂ HeterojunctionCatalyst for High-Performance Ethanol Electrooxidation

Yufeng Zhang (195768)Rong Xu (296325)Qing Shao (50505)Guokang Luo (22189504)Jiahao Liu (2398594)Xin Chen (14149)Shan-shan Yu (200890)Shaoxian Liu (5506313)Jin Zhang (53297)Di Liu (30843)Wei Zhu (23646)

Year: 2025 Journal: OPAL (Open@LaTrobe) (La Trobe University) Publisher: La Trobe University

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Abstract

Coupling the ethanol electrooxidation reaction (EOR) with the hydrogen evolution reaction is an effective way to obtain green energy. Although Ni-based catalysts have the characteristics of low cost and good stability, meanwhile, the activity needs to be further improved. Here, we report a Ni-based heterojunction EOR catalyst, Ni₃Co₁(OH)_x@Ni₃S₂, composed by two phases of Ni₃S₂ and Ni₃Co₁(OH)_x. The obtained Ni₃Co₁(OH)_x@Ni₃S₂ showed excellent EOR performance, which could achieve a high specific activity of 315.7 mA/cm² at 1.40 V, which was 15.5 times that of Ni(OH)₂ and superior to most reported Ni-based catalysts. The addition of Co regulates the d-band center and introduces additional positively charged centers for the strong adsorption of OH^–. The anionic effect of Ni₃S₂ can accelerate oxidation of the Ni active centers to active Ni(III) sites. The heterojunction structure can enhance the cation and anion effects and the turnover rate of OH^– species, improving the EOR performance.

Keywords:

Catalysis Heterojunction Ethanol Adsorption Hydrogen Redox Active center Fuel cells

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Electrocatalysts for Energy Conversion

Physical Sciences → Energy → Renewable Energy, Sustainability and the Environment

Advanced oxidation water treatment

Physical Sciences → Environmental Science → Water Science and Technology

CO2 Reduction Techniques and Catalysts

Physical Sciences → Energy → Renewable Energy, Sustainability and the Environment

Synergistically EnhancedNi₃Co₁(OH)_x@Ni₃S₂ HeterojunctionCatalyst for High-Performance Ethanol Electrooxidation

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