Supported Ag-based bimetallic catalysts with low Ag loading of 3.0 wt%, prepared by the surfactant-protected colloidal method, were investigated for the epoxidation of propylene by molecular oxygen and characterized by UV-vis, XRD, TEM, XPS, and H-2-TPR. Ag-Cu/BaCO3 bimetallic catalyst exhibits better catalytic performance, governed by the molar ratio of Ag/Cu, than other supported Ag-based bimetallic catalysts and monometallic catalysts for the epoxidation of propylene by molecular oxygen. The highest propylene oxide selectivity of 55.1% and the propylene conversion of 3.6% were achieved over Ag-95-Cu-5/BaCO3 bimetallic catalyst. XRD and TEM results show that a small quantity of Cu can effectively regulate the size of Ag crystallites to restrain their agglomeration. XPS results indicate that the presence of Cu can withdraw electrons from nearby Ag and thus make Ag electropositive, which is beneficial to produce more active sites where electrophilic oxygen species can be absorbed to increase the propylene oxide selectivity. H-2-TPR results show that the reactivity and the amount of the oxygen species adsorbed on Ag surface can be regulated by the synergistic effect between Ag and Cu, which plays an important role in increasing the propylene oxide selectivity and the propylene conversion.

• 出版日期2012-5
• 单位华东理工大学