Hedan Yao scite author profile

Catalytic reduction of CO2 over Cu-based catalysts can produce various carbon-based products such as the critical intermediate CO, yet significant challenges remain in shedding light on the underlying mechanisms. Here, we develop a modified triple-stage quadrupole mass spectrometer to monitor the reduction of CO2 to CO in the gas phase online. Our experimental observations reveal that the coordinated H2O on Cu(I)-based catalysts promotes CO2 adsorption and reduction to CO, and the resulting efficiencies are two orders of magnitude higher than those without H2O. Isotope-labeling studies render compelling evidence that the O atom in produced CO originates from the coordinated H2O on catalysts, rather than CO2 itself. Combining experimental observations and computational calculations with density functional theory, we propose a detailed reaction mechanism of CO2 reduction to CO over Cu(I)-based catalysts with coordinated H2O. This study offers an effective method to reveal the vital roles of H2O in promoting metal catalysts to CO2 reduction.

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A comprehensive review of the thermal cracking stability of endothermic hydrocarbon fuels

Wang

Shang

et al. 2023

Journal of Analytical and Applied Pyrolysis

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Hedan Yao

Theoretical study of methanol synthesis from CO2 hydrogenation on PdCu3(111) surface

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Water coordinated on Cu(I)-based catalysts is the oxygen source in CO2 reduction to CO

A comprehensive review of the thermal cracking stability of endothermic hydrocarbon fuels

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