Modulating the Nitrate Reduction Pathway on Unconventional Phase Ultrathin Nanoalloys for Selective Ammonia Electrosynthesis
City University of Hong Kong · Kunming Institute of Precious Metals · +7 more institutions
Indexed incrossrefpubmed
Abstract
Adsorption configuration at electrode/electrolyte interfaces account for this significant enhancement. In addition, rechargeable Zn-nitrate/methanol flow batteries with 2H-RhCu were constructed as a demonstration of potential applications.
Citation impact
68
total citations
- FWCI
- 19.99
- Percentile
- 100%
- References
- 67
Citations per year
Authors
24- JZJingwen ZhouCorresponding
City University of Hong Kong, Kunming Institute of Precious Metals
- FLFu Liu
City University of Hong Kong
- ZXZhihang Xu
Hong Kong Polytechnic University
- JYJian-An Yin
City University of Hong Kong, Kunming Institute of Precious Metals
- LGLiang Guo
City University of Hong Kong, Kunming Institute of Precious Metals
Topics & keywords
Topics
Keywords
- Chemistry
- Overpotential
- Electrosynthesis
- Electrolyte
- Faraday efficiency
- Ammonia production
- Nitrate
- Inorganic chemistry
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Funding
- CUCity University of Hong KongAwards: 9610663, 9680301, 7020103, 7006007, 9610480
- SAScience and Technology Foundation of Shenzhen CityAward: JCYJ20220530140815035
- NNNational Natural Science Foundation of ChinaAwards: 52102320, 22175148
- CGChang Gung University
- RGResearch Grants Council, University Grants CommitteeAwards: 21309322, 15307522
- IAInnovation and Technology Commission
- HKHong Kong Polytechnic University
- CGChang Gung Medical Foundation
- NTNational Taiwan University
- SUSoutheast University
- XUXihua University
- SRShenzhen Research Institute, City University of Hong Kong
- KLKey Laboratory of Fluid and Power Machinery, Ministry of Education