Título: Structure and reactive properties of Nb-impregnated two-dimensional pillared MWW zeolites for total oxidation of volatile organic compounds
Autor: A. Schwanke; RB; Wittee Lopes, Christian; Debora Motta Meira; DÍAZ MORALES, URBANO MANUEL; Sibele B. Pergher; Katia Bernardo-Gusmao
Resumen: [EN] In this work, the structure and reactive properties of niobium (Nb)-impregnated MWW-type materials were evaluated for gas-phase total oxidation of volatile organic compounds, including BTX (benzene, toluene and o -xylene). The role of the type of structure (two or three-dimensional) and the loading of Nb were considered. The results indicated most Nb species with a tetrahedral coordination on the external surfaces of both two- and threedimensional zeolites, together with a minimal contribution of octahedral extra-framework Nb2O5 species. The texture and Nb content played a key role in the gas-phase total oxidation of BTX. With the same Nb content (5 wt %), the pillared zeolite exhibited a higher specific surface, larger pore volume and mesopores between the MWW nanosheets when compared to the MCM-22 zeolites, which resulted in high accessibility of the reactant molecules to the active sites, reflected in higher BTX conversion at lower and higher temperatures (50-300 degrees C). The best performance was achieved with the pillared zeolite (10 wt% Nb), reaching a BTX conversion at 300 degrees C of 92%, 69% and 58%, respectively. The catalyst was stable for up to 30 h of reaction.