ACID SITES TOPOLOGY IN ALUMINAS AND ZEOLITES FROM HIGH-RESOLUTION SOLID-STATE NMR

High-resolution solid-state nuclear magnetic resonance (NMR) spectrosc opy is recognized as one of the most powerful tools in characterizatio n of acid catalysts. Hundreds of research papers and tens of reviews a nd monographs appear each year. It is evidently an impossible task not only to discuss all recent contributions but even to mention each of them. Therefore, we restricted ourselves to a rather narrow (but fast developing) field, namely, the characterization of surface topology of real catalysts by heteronuclear dipolar interaction between magnetic nuclei. The common desire of all spectroscopists to obtain spectra wit h the best possible resolution competes with the general trend to obta in the greatest amount of information on systems. In this review we ou tline experimental approaches to this problem and describe several edi ting techniques which introduce new dimension into conventional NMR. T he discussion is furnished with examples from current literature, howe ver the emphasis is given to our recent publications in which the intr oduction of new experimental ideas resulted in deeper insight into the nature of surface acidity. In particular, two problems are discussed in detail, namely, how to observe selectively surface species (cross-p olarization experiments) and how to retrieve dipolar contribution from the overall lineshape (double-resonance spin-echo experiments). The r esults obtained from these experiments allowed us to reach important c onclusions concerning the nature of Lewis acidity in aluminas and the role of isolated Al atoms in formation of Bronsted sites in zeolites.