Liquid phase oxidation of p-vanillyl alcohol over synthetic Co-saponite catalyst

Effect of cobalt loading on porosity of synthetic Co-saponite catalysts and on the air oxidation of p-vanillyl alcohol was studied by varying Co content in the range of 5% to 30% using in situ precipitation method. The pore size increased from 1.29 to 3.69 nm indicating a transition from micro to meso porosity, with increase in Co loading from 5% to 30%. The distribution ratio of Co 3O 4/CoO phases as estimated from TPR studies, also increased from 0.84 to 1.67 with increase in Co loading from 5% to 13% and remained almost constant (1.7) with further increase in Co loading up to 30%. The highest activity (conversion 55%) and selectivity of 99% to p-vanillin obtained for 13% Co-saponite in p-vanillyl alcohol oxidation was due to the highest distribution ratios of Co 3O 4/CoO phases. [Display omitted] ► Co-saponite transformed from micro to mesoporous by increasing the Co loading ► Highest air oxidation activity and selectivity was achieved for 13% Co-saponite ► Co 3O 4/CoO ratio and pore size of Co-saponite altered activity, selectivity pattern