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Less-Energy Consumed Hydrogen Evolution Coupled with Electrocatalytic Removal of Ethanolamine Pollutant in Saline Water over Ni@Ni₃S₂/CNT Nano-Heterostructured Electrocatalysts (Small Methods 3/2022)

Bin Zhao

Shenzhen Key Laboratory of Polymer Science and Technology, Guangdong Research Center for Interfacial Engineering of Functional Materials, College of Materials Science and Engineering, Shenzhen University, Shenzhen, 518060 China

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Jianwen Liu,

Jianwen Liu

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Renfei Feng,

Renfei Feng

Canadian Light Source Inc., Saskatoon, Saskatchewan, S7N 0X4 Canada

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Lei Wang,

Lei Wang

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Jiujun Zhang,

Jiujun Zhang

Institute for Sustainable Energy, College of Sciences, Shanghai University, Shanghai, 200444 China

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Jing-Li Luo,

Jing-Li Luo

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Xian-Zhu Fu,

Xian-Zhu Fu

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Bin Zhao,

Bin Zhao

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Jianwen Liu,

Jianwen Liu

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Renfei Feng,

Renfei Feng

Canadian Light Source Inc., Saskatoon, Saskatchewan, S7N 0X4 Canada

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Lei Wang,

Lei Wang

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Jiujun Zhang,

Jiujun Zhang

Institute for Sustainable Energy, College of Sciences, Shanghai University, Shanghai, 200444 China

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Jing-Li Luo,

Jing-Li Luo

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Xian-Zhu Fu,

Xian-Zhu Fu

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First published: 21 March 2022

https://doi.org/10.1002/smtd.202270021

Citations: 1

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In article number 2101195, Fu and co-workers developed an effective countermeasure for both energy and environmental challenges by integrating electro-oxidation removal of organic pollutants with energy-efficient hydrogen production in saline water. The as-synthesized core/shell Ni@Ni₃S₂/carbon nanotubes nano-heterostructures are competent for stably electro-oxidizing ethanolamine pollutant in saline water at the anode with long-term working stability at high current densities, which not only suppresses oxygen/chlorine evolution reactions but also decreases the energy cost to boost hydrogen production.