Samples of beta-zeolite thermally treated at different temperatures and acid leached with diluted
hydrochloric acid solution have been investigated by XRD, 27Al MAS-NMR spectroscopy and FTIR spectroscopy. The results have been used to interpret the behaviour of the samples as catalysts for the acylation of 2-methoxy-naphthalene. It has been shown that the as prepared sample presents two types of extraframework species. These are identified as Al hydroxo-ions highly dispersed in the internal zeolite channels and
Al oxide nanoparticles. Calcination causes dealumination of the framework and progressive conversion of the Al hydroxo-ions into Al oxide nanoparticles that reduce the zeolite channels practicability, modifying the shape selectivity effect. The Brønsted acid sites present in the sinusoidal channels (νOH=3608 cm−1) can be distinguished from those located in the larger ones (νOH=3620–3612 cm−1), due to the inability of the bulky probe molecule pivalonitrile to enter the former. However, internal terminal silanols (νOH=3735 cm−1) also apparently display a significant Brønsted acidity, definitely higher than the acidity of those absorbing at 3747 cm−1,
thought to be located at the external crystal surface. The strongest Lewis acidity is displayed by the aluminum
hydroxo-ions, while that of alumina nanoparticles is a little weaker. Acid-leached beta-zeolite also displays a medium strength Lewis acidity, likely due to framework Al cations. Thus a partial reinterpretation of the real structure of beta-zeolite and a
partial reassignment of the bands due to the surface hydroxy groups are proposed.
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