You-Hsiang Yang, Dawei Yao, Mengjiao Zhang
Jul 1, 2021
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0
Influential Citations
15
Citations
Journal
Catalysis Today
Abstract
Abstract Hydrogenation of ethylene carbonate (EC) to methanol and ethylene glycol is an attractive method for indirect hydrogenation of CO2 to methanol. Copper-based catalysts have been studied in EC hydrogenation because of their good selective activation ability for carbon-oxygen bonds. Herein, a series of Mo-doped Cu/SiO2 catalysts were prepared and used for EC hydrogenation. The catalyst with 0.5 wt% Mo dopant exhibited the highest catalytic performance of 80.9 % MeOH yield and 98.6 % EG yield with an excellent stability for at least 140 h. Detailed characterizations revealed that a proper amount of Mo addition could be beneficial to enhancing the copper dispersion and preventing them from aggregation. Moreover, it is demonstrated that the amount of surface Cu+ species was increased with some electron-deficient ones generated resulting from the strong interaction between copper and molybdenum species, which may effectively promote the activation of EC. The optimal 0.5 wt% Mo-doped catalyst showed remarkably enhanced efficiency and the apparent activation energy barrier of 115.8 kJ mol−1 is much lower than that of the Mo-free sample in EC hydrogenation. The insights may bring new possibilities to further design efficient copper-based catalysts for the hydrogenation of carbon-oxygen bonds.