Affiliation:
1. School of Environment, Tsinghua University, Beijing 100084, China
Abstract
Efficient
n
= O bond activation is crucial for the catalytic reduction of nitrogen compounds, which is highly affected by the construction of active centers. In this study,
n
= O bond activation was achieved by a single-atom catalyst (SAC) with phosphorus anchored on a Co active center to form intermediate
N
-species for further hydrogenation and reduction. Unique phosphorus-doped discontinuous active sites exhibit better
n
= O activation performance than conventional
N
-cooperated single-atom sites, with a high Faradic efficiency of 92.0% and a maximum ammonia yield rate of 433.3 μg NH4·h
−1
·cm
−2
. This approach of constructing environmental sites through heteroatom modification significantly improves atom efficiency and will guide the design of future functional SACs with wide-ranging applications.
Funder
National Natural Science Foundation of China
Publisher
Proceedings of the National Academy of Sciences
Reference56 articles.
1. Bulletin on China’s ecological environment of 2020. Ministry of Ecology and Environment of People’s Republic of China. https://www.mee.gov.cn/hjzl/sthjzk/. Accessed 26 May 2021.
2. Investigation report on the groundwater quality and pollution in China. Institute of Hydrogeology and Environmental Geology Chinese Academy of Geological Sciences. http://en.cags.ac.cn/. Accessed 17 May 2016.
3. Improvement in municipal wastewater treatment alters lake nitrogen to phosphorus ratios in populated regions
4. Electrochemical ammonia synthesis via nitrate reduction on Fe single atom catalyst
5. Electrochemical reduction of nitrate to ammonia via direct eight-electron transfer using a copper–molecular solid catalyst
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