Methanol upgrading coupled with hydrogen product at large current density promoted by strong interfacial interactions

被引:139
|
作者
Hao, Yixin [1 ]
Yu, Deshuang [1 ]
Zhu, Shangqian [2 ]
Kuo, Chun-Han [3 ]
Chang, Yu-Ming [3 ]
Wang, Luqi [1 ]
Chen, Han-Yi [3 ]
Shao, Minhua [2 ,4 ]
Peng, Shengjie [1 ]
机构
[1] Nanjing Univ Aeronaut & Astronaut, Coll Mat Sci & Technol, Jiangsu Key Lab Electrochem Energy Storage Technol, Nanjing 210016, Peoples R China
[2] Hong Kong Univ Sci & Technol, Dept Chem & Biol Engn, Kowloon, Hong Kong, Peoples R China
[3] Natl Tsing Hua Univ, Dept Mat Sci & Engn, Hsinchu 30013, Taiwan
[4] Hong Kong Univ Sci & Technol, Energy Inst, Kowloon, Hong Kong, Peoples R China
来源
ENERGY & ENVIRONMENTAL SCIENCE | 2023年 / 16卷 / 03期
基金
中国国家自然科学基金;
关键词
OXIDATION; ELECTROCATALYSTS;
D O I
10.1039/d2ee03936b
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Anodic organic upgrading offers a promising strategy to produce value-added chemicals and to facilitate coupled hydrogen production but it is still challenging in terms of long-term stability and high activity of the electrocatalysts at large current densities. Herein, highly dispersed FeNi oxide heterojunctions anchored on nickel foam (Fe2O3/NiO) as efficient catalysts are synthesized via an ultrafast solution combustion strategy. In methanol electrooxidation, a large absolute current density (500 mA cm(-2) at 1.654 V vs. RHE) with a high faradaic efficiency (>98%) is achieved. In situ infrared spectroscopy and theoretical calculations indicate that the heterostructure modulates the electronic state of NiO through strong electronic interactions, providing unique collaborative active sites for the favorable dynamic conversion of methanol to formate and inhibiting further oxidation. Furthermore, the interface confinement effect also stabilizes the metastable nickel active site, which ensures the stability of the catalyst structure during the reversible redox cycling, resulting in a steady and dynamically-enhanced catalytic process.
引用
收藏
页码:1100 / 1110
页数:11
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