Abstract
High silica content SAPO-5 was synthesized using aqueous and two-liquid phase systems in presence of hexadecyltrimethylammonium bromide. The scope of the work was to study the effect of the synthesis parameters on the amount of silicon incorporated into the network, the different silicon environments and on the catalytic activity in them-xylene isomerization. The results showed that the use of the two-liquid phase synthesis causes greater incorporation and diversification of the silicon distribution in the SAPO-5 network and therefore, a substantial increase in the material acidity. The maximum catalytic activity in the conversion of meta-xylene was achieved by the samples synthesized via the two-liquid phase method and in the presence of the surfactant with 10 wt% of SiO2. Silica incorporation above 10% creates greater silicon domains, reducing drastically the catalytic activity of the material.
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