Aerosol Route to Highly Efficient (Co)Mo/SiO sub(2) Mesoporous Catalysts

One-pot aerosol-assisted synthesis of mesostructured (Co)Mo/SiO sub(2) catalysts with high hydrogenation activity is reported. The evaporation*induced self-assembly mechanism of the formation of such catalysts enables optimized interactions between each component, resulting in the tuning of localization of the active species. The high activity is probably associated with the original morphology of the active phase as well as the creation of relevant defects in its structure. Since spray-dried mesoporous CoMo/SiO sub(2) catalysts outperform the hydrogenation activity of classical impregnated catalysts, aerosol route appears to be a promising way for the industrial-scale preparation of new highly efficient hydrocarbons catalysts. One-pot synthesis through spray drying of large structured porous (Co)Mo/SiO sub(2) composite presenting high hydrogenating activity is reported. This high activity is associated with both a tuned localization of the active species inside the mesopores and to the formation of nanoscopic molybdenum sulfide entangled slabs that likely promote the number of catalytically relevant defects.