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High-Efficiency Direct Esterification of CO<sub>2</sub> and Methanol over Co-Doped CeO<sub>2</sub> Catalysts

Chen Xue, Libin Liu, Yuxi Si, Yangqiang Huang, Shengdong Yang, Kuanrong Xue, Jun Xi, Youwei Cheng

2025Industrial & Engineering Chemistry Research13 citationsDOI

Abstract

The direct esterification reaction of CO 2 with methanol to produce dimethyl carbonate (DMC) provides a sustainable pathway for the resourceful utilization of CO 2 . However, the chemical stability of CO 2 makes the reaction kinetically difficult with low methanol conversion and DMC yields. In this study, a series of catalysts (denoted as M-CeO 2, M = Fe, Cu, Co, La, Zr, Ni, and Al) with oxygen vacancy defects were constructed by a doping strategy, which provided critical sites for the adsorption and activation of methanol and CO 2 . Additionally, 2-cyanopyridine (2-CP) was employed as a dehydrating agent to facilitate the esterification reaction through dehydration. Under the optimized experimental conditions, the conversion of methanol was 61.9% and the DMC yield was 61.6%. The experimental and characterization results show that the extensive oxygen vacancies and base sites on the surface of the 5% Co-CeO 2 catalyst are crucial for activating methanol and CO 2, which is the main reason for the high catalytic activity of the catalyst. In situ diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) effectively demonstrated the efficient activation of methanol and CO 2 on the catalyst and further confirmed the formation of monomethyl carbonate species during the reaction process. The high catalytic performance was also demonstrated in the direct esterification of other monohydric alcohols, thus confirming the broad applicability of the catalyst. This study presents a viable approach for the efficient utilization of CO 2 resources, offering a promising solution for the sustainable management of greenhouse gas.

Topics & Concepts

MethanolCatalysisDimethyl carbonateChemistryFourier transform infrared spectroscopyAdsorptionYield (engineering)Inorganic chemistryChemical engineeringDiffuse reflectance infrared fourier transformMaterials scienceOrganic chemistryPhotocatalysisMetallurgyEngineeringCarbon dioxide utilization in catalysisCatalysts for Methane ReformingCatalysis for Biomass Conversion
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