The thermal stability and hydroxyl coverage of aluminum salt of 12-tungstophosphoric acid, AlPW 12 O 40 , was studied by X-ray diffraction and solid-state NMR spectroscopy in comparison with the pure H 3 PW 12 O 40 heteropoly acid. The most important differences of these materials consist in the higher thermal stability of the local structure and the stronger temperature dependence of the concentration of acidic protons of AlPW 12 O 40 . H 3 PW 12 O 40 showed shrinkage of the unit cell in the X-ray patterns and changes of the local structure in the 31 P MAS NMR spectra already upon dehydration at 473 K, while no structural modifications were found for AlPW 12 O 40 up to 673 K. On AlPW 12 O 40 , acidic protons and AlOH groups are formed by dissociation of water molecules at the multivalent aluminum cations upon dehydration at temperatures of 373-423 K. After dehydration at temperatures higher than 423 K, the hydroxyl groups of AlPW 12 O 40 dehydroxylate and nonhydroxylated Al 3+ cations are formed. The accessibility of acidic protons as studied by adsorption of pyridine was found to be similar for dehydrated H 3 PW 12 O 40 and AlPW 12 O 40 , that is, a lower accessibility occurs with increasing dehydration temperature. The adsorption of probe molecules for studying the acid strength indicated that AlPW 12 O 40 dehydrated at 373-523 K is as superacidic as dehydrated H 3 PW 12 O 40 .
The catalytic activity of novel micro/mesoporous ZSM-5 in the dehydration process of alcohols has been studied with respect to their acidity and porosity.
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