High resolution heteronuclear correlation NMR spectroscopy between quadrupolar nuclei and protons in the solid state.

Abstract

A high resolution two-dimensional solid state NMR experiment is presented that correlates half-integer quadrupolar spins with protons. In this experiment the quadrupolar nuclei evolve during t1 under a split-t1, FAM-enhanced MQMAS pulse scheme. After each t1 period ending at the MQMAS echo position, single quantum magnetization is transferred, via a cross polarization process in the mixing time, from the quadrupolar nuclei to the protons. High-resolution proton signals are then detected in the t2 time domain during wPMLG5* homonuclear decoupling. The experiment has been demonstrated on a powder sample of sodium citrate and 23Na-1H 2D correlation spectra have been obtained. From the HETCOR spectra and the regular MQMAS spectrum, the three crystallographically inequivalent Na+ sites in the asymmetric unit were assigned. This MQMAS-wPMLG HETCOR pulse sequence can be used for spectral editing of half-integer quadrupolar nuclei coupled to protons.

Cite this paper

@article{Goldbourt2004HighRH, title={High resolution heteronuclear correlation NMR spectroscopy between quadrupolar nuclei and protons in the solid state.}, author={Amir Goldbourt and Elena Vinogradov and Gil Goobes and Shimon Vega}, journal={Journal of magnetic resonance}, year={2004}, volume={169 2}, pages={342-50} }