Single-atom Rh/N-doped carbon electrocatalyst for formic acid oxidation

被引:0
|
作者
Yu Xiong
Juncai Dong
Zheng-Qing Huang
Pingyu Xin
Wenxing Chen
Yu Wang
Zhi Li
Zhao Jin
Wei Xing
Zhongbin Zhuang
Jinyu Ye
Xing Wei
Rui Cao
Lin Gu
Shigang Sun
Lin Zhuang
Xiaoqing Chen
Hua Yang
Chen Chen
Qing Peng
Chun-Ran Chang
Dingsheng Wang
Yadong Li
机构
[1] Tsinghua University,Department of Chemistry
[2] Central South University,College of Chemistry and Chemical Engineering
[3] Institute of High Energy Physics,Beijing Synchrotron Radiation Facility
[4] Chinese Academy of Sciences,Shaanxi Key Laboratory of Energy Chemical Process Intensification, School of Chemical Engineering and Technology
[5] Xi’an Jiaotong University,Shanghai Synchrotron Radiation Facilities
[6] Shanghai Institute of Applied Physics,Laboratory of Advanced Power Sources
[7] Chinese Academy of Science,State Key Lab of Organic–Inorganic Composites, Beijing Advanced Innovation Center for Soft Matter Science and Engineering
[8] Changchun Institute of Applied Chemistry,State Key Laboratory of Physical Chemistry of Solid Surfaces, Department of Chemistry, College of Chemistry and Chemical Engineering
[9] Chinese Academy of Sciences,College of Chemistry and Molecular Sciences, Hubei Key Lab of Electrochemical Power Sources
[10] Jilin Province Key Laboratory of Low Carbon Chemical Power Sources,Stanford Synchrotron Radiation Lightsource
[11] Beijing University of Chemical Technology,Beijing National Laboratory for Condensed Matter Physics
[12] Xiamen University,undefined
[13] Wuhan University,undefined
[14] SLAC National Accelerator Laboratory,undefined
[15] Institute of Physics,undefined
[16] Chinese Academy of Sciences,undefined
来源
Nature Nanotechnology | 2020年 / 15卷
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摘要
To meet the requirements of potential applications, it is of great importance to explore new catalysts for formic acid oxidation that have both ultra-high mass activity and CO resistance. Here, we successfully synthesize atomically dispersed Rh on N-doped carbon (SA-Rh/CN) and discover that SA-Rh/CN exhibits promising electrocatalytic properties for formic acid oxidation. The mass activity shows 28- and 67-fold enhancements compared with state-of-the-art Pd/C and Pt/C, respectively, despite the low activity of Rh/C. Interestingly, SA-Rh/CN exhibits greatly enhanced tolerance to CO poisoning, and Rh atoms in SA-Rh/CN resist sintering after long-term testing, resulting in excellent catalytic stability. Density functional theory calculations suggest that the formate route is more favourable on SA-Rh/CN. According to calculations, the high barrier to produce CO, together with the relatively unfavourable binding with CO, contribute to its CO tolerance.
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页码:390 / 397
页数:7
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