In order to minimize the fast and undesired recombination rate of photoproduced e-/h+ pairs on the TiO2 surface, the effect induced by coupling TiO2 with different amount of WO3, according to an alkaline-catalyzed sol-gel method followed by an incipient wetting procedure, has been investigated in both an oxidation and a reduction process, i.e. in formic acid (FA) mineralization and in Cr(VI) reduction. A different photoactivity trend of TiO2- WO3 materials in the two investigated test reactions was observed. While the progressive increase of W/Ti content limited the surface properties of titania in FA oxidation, the coupling of TiO2 with relatively small amount of WO3 (0.2-1.0 mol.%) was beneficial in increasing the rate of Cr(VI) photoreduction, pointing to an essential role of WO3 domains in photopromoted electron transfer efficiency.
Photocatalytic activity of TiO2-WO3 mixed oxides in oxidation and reduction reactions / E. Selli, M.V. Dozzi, S. Marzorati, M. Longhi. ((Intervento presentato al 8. convegno European Meeting on Solar Chemistry and Photocatalysis Environmental Applications tenutosi a Thessaloniki nel 2014.
Photocatalytic activity of TiO2-WO3 mixed oxides in oxidation and reduction reactions
E. Selli;M.V. Dozzi;S. Marzorati;M. Longhi
2014
Abstract
In order to minimize the fast and undesired recombination rate of photoproduced e-/h+ pairs on the TiO2 surface, the effect induced by coupling TiO2 with different amount of WO3, according to an alkaline-catalyzed sol-gel method followed by an incipient wetting procedure, has been investigated in both an oxidation and a reduction process, i.e. in formic acid (FA) mineralization and in Cr(VI) reduction. A different photoactivity trend of TiO2- WO3 materials in the two investigated test reactions was observed. While the progressive increase of W/Ti content limited the surface properties of titania in FA oxidation, the coupling of TiO2 with relatively small amount of WO3 (0.2-1.0 mol.%) was beneficial in increasing the rate of Cr(VI) photoreduction, pointing to an essential role of WO3 domains in photopromoted electron transfer efficiency.
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