Mn-Ti mixed oxides with stoichiometry TixMn1-xOy (with x = 0, 0.1, 0.2, 0.5, 0.8, 0.9, 1) have been prepared by a coprecipitation method. Mn3O4 (hausmannite) and TiO2 (anatase) were found to be the main crystalline phases, while solid solutions appeared to be formed at the extreme values of x. Thermal stability of these materials reaches 873 K, transforming into thermodynamically stable phases, TiO2 (rutile) y alpha-Mn2O3, at higher temperatures. From catalytic point of view, they are active in propane and propene oxidation, though the increase of Ti content seems to deactivate Mn oxide for propene oxidation. Conversely, the sample with the Mn/Ti = 1 ratio presents a maximum for propane oxidation.
MnOx-TiO2 catalyzers for valatil organic compounds elimination.
BUSCA, GUIDO;
1999-01-01
Abstract
Mn-Ti mixed oxides with stoichiometry TixMn1-xOy (with x = 0, 0.1, 0.2, 0.5, 0.8, 0.9, 1) have been prepared by a coprecipitation method. Mn3O4 (hausmannite) and TiO2 (anatase) were found to be the main crystalline phases, while solid solutions appeared to be formed at the extreme values of x. Thermal stability of these materials reaches 873 K, transforming into thermodynamically stable phases, TiO2 (rutile) y alpha-Mn2O3, at higher temperatures. From catalytic point of view, they are active in propane and propene oxidation, though the increase of Ti content seems to deactivate Mn oxide for propene oxidation. Conversely, the sample with the Mn/Ti = 1 ratio presents a maximum for propane oxidation.
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