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Accurate determination of chemical shift tensor orientations of single-crystals by solid-state magic angle spinning NMR

Authors :
Yamini S. Avadhut
Jörn Schmedt auf der Günne
Johannes Weber
Source :
Journal of Magnetic Resonance. 282:89-103
Publication Year :
2017
Publisher :
Elsevier BV, 2017.

Abstract

An improved implementation of single-crystal magic-angle-spinning (MAS) NMR is presented which gives access to chemical shift tensors both in orientation (relative to the crystal axis system) and principal axis values. For mounting arbitrary crystals inside ordinary MAS rotors, a mounting tool is described which allows to relate the crystal orientation determined by diffraction techniques to the rotor coordinate system. The crystal is finally mounted into a MAS rotor equipped with a special insert which allows a defined reorientation of the single-crystal by 90°. The approach is based on the idea that the dispersive spectra, which are obtained when applying read-pulses at specific rotor-phases, not only yield the size of the eigenvalues but also encode the orientation of the different chemical shift (rank-2) tensors. For this purpose two 2D-data sets with orthogonal crystal orientation are fitted simultaneously. The presented analysis for chemical shift tensors is supported by an analytical formula which allows fast calculation of phase and amplitude of individual spinning side-bands and by a protocol which solves the problem of finding the correct reference phase of the spectrum. Different rotor-synchronized pulse-sequences are introduced for the same reason. Experiments are performed on L -alanine and O-phosphorylethanolamine and the observed errors are analyzed in detail. The experimental data are opposed to DFT-computed chemical shift tensors which have been obtained by the extended embedded ion method.

Details

ISSN :
10907807
Volume :
282
Database :
OpenAIRE
Journal :
Journal of Magnetic Resonance
Accession number :
edsair.doi.dedup.....d8839f027730935ccec520d52571eab5
Full Text :
https://doi.org/10.1016/j.jmr.2017.06.012