Novel nuclear magnetic resonance techniques for the study of quadrupolar nuclei in clays and other layered materials

abstract

The main developments taking place in Nuclear Magnetic Resonance Spectroscopy (NMR) of quadrupolar (spin 1 > 1/2) nuclei with half integer spins in solids, particularly clays and other layered materials, have been reviewed. The advent of Multiple-Quantum (MQ) Magic-Angle Spinning (MAS) NMR spectroscopy has been a step-change development to the studies of quadrupolar nuclei in solids. It is now possible to record high-resolution spectra of important nuclei, such as B-11, O-17, Na-23, Al-27 and Ga-69,Ga-71, in synthetic and natural clays. Since its introduction in 1995 MQMAS NMR has evolved considerably and, at present, a range of very useful related techniques are available and have been reviewed, as has the current situation with regard to applications to clays and other layered materials.

keywords

MULTIPLE-QUANTUM MAS; ANGLE-SPINNING NMR; RESOLUTION HETERONUCLEAR CORRELATION; SATELLITE-TRANSITION MAS; SOLID-STATE; CROSS-POLARIZATION; MQMAS NMR; AL-27 MAS; 3QMAS NMR; DIPOLAR INTERACTIONS

subject category

Chemistry; Geology; Mineralogy

authors

Rocha, J; Morais, CM; Fernandez, C

our authors

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