INCAPE   05401
INSTITUTO DE INVESTIGACIONES EN CATALISIS Y PETROQUIMICA "ING. JOSE MIGUEL PARERA"
Unidad Ejecutora - UE
artículos
Título:
Ionone synthesis by cyclization of pseudoionone on silica-supported heteropolyacid catalysts
Autor/es:
VERÓNICA K. DÍEZ; BRUNO J. MARCOS; CARLOS R. APESTEGUÍA; J. ISABEL DI COSIMO
Revista:
APPLIED CATALYSIS A-GENERAL
Editorial:
Elsevier
Referencias:
Año: 2009 vol. 358 p. 95 - 102
ISSN:
0926-860X
Resumen:
The liquid-phase cyclization of pseudoionone to ionones (a, b and g isomers) was studied on silica-supported heteropolyacid (HPA) catalysts containing between 18.8 and 58.5 % HPA. The HPA used was tungstophosphoric acid (H3PW12O40). The catalyst surface and structural properties were thoroughly characterized by several techniques. The density, chemical nature and strength distribution of the surface acid sites were determined by adsorbing and monitoring by temperature-programmed desorption and infrared spectroscopy probe molecules such as NH3 and pyridine. The pseudoionone conversion to ionones increased linearly with the Brønsted acid site density until the HPA loading approached to the monolayer saturation coverage. For higher HPA contents, the pseudoionone adsorption and conversion were hampered because of spatial constraints that diminished the reactant accessibility to the proton active sites. The highest ionone yield, 79 %, was obtained on a 58.5 wt. % HPA/SiO2 catalyst at 383 K and is comparable to the best values reported in literature for the homogeneously-catalyzed reaction using sulfuric acid.  The ionone isomer distribution was modified by varying both the temperature and the reaction time.  A reaction mechanism was postulated in which ionone isomers (a, b, g) are primary products, but g-ionone is isomerized to a-ionone while b-ionone is not converted in the other isomers.