Aerobic oxidation of 4-tert-butyltoluene over cobalt and manganese supported hexagonal mesoporous silicas as heterogeneous catalysts
2012
Yu, Wei hua | Zhou, Chun hui | Tong, Dong shen | Xu, Tian ning
Monometallic cobalt and manganese, and their bimetal-supported hexagonal mesoporous silicas (HMS) prepared by incipient-wetness impregnation using cobalt nitrate and manganese acetate as precursors, and ethanol and ethylene glycol as impregnation solvents, respectively, were examined as catalysts for partial oxidation of 4-tert-butyltoluene with dioxygen as oxidizing agent in acetonitrile solvent. The catalysts were characterized by X-ray powder diffraction, N₂ adsorption–desorption isotherm, diffuse reflectance UV–vis spectroscopy and thermogravimetric and differential thermal analysis. The introduction of cobalt oxides to HMS kept complete mesostructure of HMS supports, high specific surface areas and big pore volumes. The dominant phase of Co₃O₄ was detected in the Co–HMS materials calcined at 550°C. A mixture of manganese oxides (MnO, Mn₂O₃, Mn₃O₄) was dispersed on the Mn–HMS catalysts after calcination at 550°C in the air. The bimetal-supported Co–Mn–HMS with loading 4wt.% of Co and Mn exhibited the best catalytic performance in the oxidation of 4-tert-butyltoluene with O₂, and gave a conversion of 43.7% of 4-tert-butyltoluene and maximal yield of 27.4% of 4-tert-butylbenzaldehyde in a reaction time of 5h in liquid phase under mild condition. A high concentration and dispersion of M²⁺ (Co²⁺, Mn²⁺) and M³⁺ (Co³⁺, Mn³⁺) ions on catalysts were responsible for high catalytic performance in the oxidation reaction via a free-radical chain promoted by N-hydroxyphthalimide (NHPI). The four consecutive cycles revealed that the cobalt and manganese species supported on HMS provided a possibility for the heterogeneous oxidation reaction.
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