科研成果详情

题名Co3Mo3N nanosheets arrays on nickel foam as highly efficient bifunctional electrocatalysts for overall urea electrolysis
作者
发表日期2022-03-12
发表期刊International Journal of Hydrogen Energy   影响因子和分区
语种英语
原始文献类型Journal article (JA)
关键词Electrocatalysts Electrolysis Hydrogen production Metabolism Nickel Active site Bifunctional electrocatalysts Catalytic performance Co3mo3N-400/NF Hydrogen evolution reactions Nanosheet arrays Nickel foam Overall urea electrolyse Oxidation reactions Urea oxidation reaction
其他关键词EVOLUTION REACTION ; HYDROGEN ; OXIDATION ; ENERGY ; STRATEGIES ; CATALYSTS ; FUEL
摘要Replacing dynamics-restricted oxygen evolution reaction (OER) with smart urea oxidation reaction (UOR) is very important for reducing the power consumption for hydrogen production. Here, the Co3Mo3N-400/NF is prepared using a facial way, which exhibits remarkable catalytic performances for UOR, hydrogen evolution reaction (HER) and overall urea electrolysis (OUE) because of the more exposed active sites and high electrical conductivity. At 100 mA/cm2, the Co3Mo3N-400/NF shows a small potential of 1.356 V vs. RHE (reversible hydrogen electrode) for UOR, which is much lower than that for OER. Furthermore, for HER, to reach to 100 mA/cm2, a low overpotential of 299 mV is required, and the urea has negligible influence on the HER process. For OUE, the Co3Mo3N-400/NF||Co3Mo3N-400/NF shows a small cell potential of 1.481 V at 100 mA/cm2 along with a good durability. Our work provides more choice for future OUE to generate hydrogen. © 2022 Hydrogen Energy Publications LLC
资助项目Natural Science Foundation of Hubei Province[2021CFB257];
出版者Elsevier Ltd
出版地OXFORD
ISSN0360-3199
EISSN1879-3487
卷号47期号:22页码:11447-11455
DOI10.1016/j.ijhydene.2022.01.181
页数53
WOS类目Chemistry, Physical ; Electrochemistry ; Energy & Fuels
WOS研究方向Chemistry ; Electrochemistry ; Energy & Fuels
WOS记录号WOS:000776747000002
收录类别EI ; SCOPUS ; SCIE
EI入藏号20220711635589
EI主题词Urea
EI分类号522 Gas Fuels ; 548.1 Nickel ; 801.4.1 Electrochemistry ; 802.2 Chemical Reactions ; 803 Chemical Agents and Basic Industrial Chemicals ; 804.1 Organic Compounds
URL查看原文
SCOPUSEID2-s2.0-85124481903
通讯作者地址[Tong, Rui]School of Mathematics,Physics and Optoelectronics Engineering,Hubei University of Automotive Technology,Shiyan,442002,China ; [Zhao, Yunyang]Scientific Research Center,Wenzhou Medical University,Wenzhou,325035,China ; [Wang, Shuangpeng]Joint Key Laboratory of the Ministry of Education,Institute of Applied Physics and Materials Engineering,University of Macau,Macau,China
Scopus学科分类Renewable Energy, Sustainability and the Environment;Fuel Technology;Condensed Matter Physics;Energy Engineering and Power Technology
引用统计
被引频次:3[WOS]   [WOS记录]     [WOS相关记录]
文献类型期刊论文
条目标识符https://kms.wmu.edu.cn/handle/3ETUA0LF/34995
专题附属第二医院_科研中心
通讯作者Tong, Rui; Zhao, Yunyang; Wang, Shuangpeng
作者单位
1.School of Mathematics,Physics and Optoelectronics Engineering,Hubei University of Automotive Technology,Shiyan,442002,China;
2.School of Materials Science and Engineering,Dongguan University of Technology,Dongguan,China;
3.Scientific Research Center,Wenzhou Medical University,Wenzhou,325035,China;
4.Joint Key Laboratory of the Ministry of Education,Institute of Applied Physics and Materials Engineering,University of Macau,Macau,China;
5.Department of Physics and Chemistry,Faculty of Science and Technology,University of Macau,Macau,China
通讯作者单位温州医科大学
推荐引用方式
GB/T 7714
Tong, Rui,Xu, Miao,Huang, Haiming,et al. Co3Mo3N nanosheets arrays on nickel foam as highly efficient bifunctional electrocatalysts for overall urea electrolysis[J]. International Journal of Hydrogen Energy,2022,47(22):11447-11455.
APA Tong, Rui., Xu, Miao., Huang, Haiming., Wu, Jun., Xiong, Yongchen., ... & Pan, Hui. (2022). Co3Mo3N nanosheets arrays on nickel foam as highly efficient bifunctional electrocatalysts for overall urea electrolysis. International Journal of Hydrogen Energy, 47(22), 11447-11455.
MLA Tong, Rui,et al."Co3Mo3N nanosheets arrays on nickel foam as highly efficient bifunctional electrocatalysts for overall urea electrolysis".International Journal of Hydrogen Energy 47.22(2022):11447-11455.

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