Catalytic properties of copper-manganese mixed oxides supported on SiO2 for benzene oxidation with ozone
•Catalytic properties of SiO2-supported manganese and manganese-containing mixed oxides for benzene oxidation with ozone were compared.•The addition of Cu, Ni, and Fe to Mn oxides changed their catalytic properties.•The highest activity was obtained for Cu-Mn/SiO2 catalysts with the molar ratio of Cu-Mn 1:1.
Catalytic oxidation of benzene was carried out over SiO2-supported manganese oxides and manganese-containing mixed oxides at 333–373 K. The catalysts were prepared by impregnation methods from metal nitrate precursor and calcined at 673–873 K. The addition of Cu, Ni, and Fe to Mn oxides suppressed the decrease of benzene oxidation activity and improved the steady state activity for benzene oxidation at 343 K, whereas the addition of Co decreased the activity. The highest activity was obtained for Cu-Mn/SiO2 catalysts with the molar ratio of Cu-Mn 1:1. XRD studies revealed that Cu3Mn3O8 and CuMn2O4 spinel phases were formed in the Cu-Mn/SiO2 catalysts. The catalytic activity of Cu-Mn mixed oxides increased with the increase in their calcination temperature, in accordance with the increase in the spinel type Cu-Mn mixed oxide phases.
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Journal: Catalysis Today - Volume 245, 1 May 2015, Pages 22–27