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W4281814501 abstract "Urea electrosynthesis provides an intriguing strategy to improve upon the conventional urea manufacturing technique, which is associated with high energy requirements and environmental pollution. However, the electrochemical coupling of NO3– and CO2 in H2O to prepare urea under ambient conditions is still a major challenge. Herein, self-supported core–shell Cu@Zn nanowires are constructed through an electroreduction method and exhibit superior performance toward urea electrosynthesis via CO2 and NO3– contaminants as feedstocks. Both 1H NMR spectra and liquid chromatography identify urea production. The optimized urea yield rate and Faradaic efficiency over Cu@Zn can reach 7.29 μmol cm–2 h–1 and 9.28% at −1.02 V vs RHE, respectively. The reaction pathway is revealed based on the intermediates detected through in situ attenuated total reflection Fourier transform infrared spectroscopy and online differential electrochemical mass spectrometry. The combined results of theoretical calculations and experiments prove that the electron transfer from the Zn shell to the Cu core can not only facilitate the formation of *CO and *NH2 intermediates but also promote the coupling of these intermediates to form C–N bonds, leading to a high faradaic efficiency and yield of the urea product." @default.
W4281814501 created "2022-06-13" @default.
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W4281814501 date "2022-06-03" @default.
W4281814501 modified "2023-10-10" @default.
W4281814501 title "Oxide-Derived Core–Shell Cu@Zn Nanowires for Urea Electrosynthesis from Carbon Dioxide and Nitrate in Water" @default.
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W4281814501 doi "https://doi.org/10.1021/acsnano.2c01177" @default.
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