Sb, V, Nb containing catalysts in low temperature oxidation of methanol – The effect of preparation method on activity and selectivity

This study deals with the influence of preparation method of SbVOx binary oxides and modification with niobium on the catalytic properties in the oxidation of methanol. The samples were prepared in the presence of a template by two different procedures with and without the template (Pluronic 123). The template-assisted synthesis leads to higher surface area and pore volume as well as smaller size particles of different shapes than those in the materials synthesised without the template. The rutile SbVO4 phase dominates in all the catalysts studied. The preparation procedure determines the formation of the additives (V2O5 or Sb2O4) and the concentration of oxovanadium species on the catalyst surface. The presence of a small amount of Sb2O4 acting as an electronic promoter in the oxidation of methanol is found when template-assisted synthesis is applied. Such a synthesis involves the formation of reducible oxovanadium species containing nucleophilic oxygen, playing an important role in the oxidation of methanol. Niobium loaded changes the selectivity towards DMM production. It has been found that by using different procedures of synthesis of binary SbVOx oxides and modification with niobium species, it is possible to obtain catalysts useful for the selective production of desired products (FA or MF or DMM) of methanol oxidation.

Graphical abstractFigure optionsDownload full-size imageDownload high-quality image (166 K)Download as PowerPoint slideHighlights► Method of SbVOx synthesis determines morphology, phase composition, and surface properties. ► Template-assisted synthesis creates unsaturated VO2+ and Sb2O4 phase on rutile SbVOx. ► Oxovanadium species with nucleophilic oxygen is important in the oxidation of methanol. ► Niobium oxide loading on SbVOx changes selectivity in methanol oxidation to DMM.