Article | REF: IN166 V1

Ultra-wide line solid state NMR of quadrupolar nuclei: example of strontium-87

Authors: Danielle LAURENCIN, Christian BONHOMME

Publication date: May 10, 2014

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1. Context

Solid-phase nuclear magnetic resonance (NMR) is currently undergoing remarkable instrumental and methodological developments. These include the use of increasingly intense external B ₀ fields (B ₀ = 23.5 T, Larmor frequency associated with the proton: ~ 1 GHz), increases in sensitivity over several orders of magnitude, and the implementation of new NMR signal acquisition methods.

Quadrupole nuclei (i.e. those with nuclear spin I > 1/2, with I integer or half-integer) make up around 75% of the magnetically active nuclei in the periodic table. Examples include ² H (I = 1), ¹⁴ N (I = 1), ²³ Na (I = 3/2), ^27...

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Principle of solid-phase NMR

Bibliography

(1) - ABRAGAM (A.) - Principles of nuclear magnetism. - Clarendon Press, Oxford (1989).
(2) - COHEN-TANNOUDJI (C.), DIU (B.), LALOË (F.) - Mécanique quantique. - Collection Enseignement des Sciences, Hermann (1997).
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Websites

TGIR-RMN (national website for the Very Large Research Instruments network) http://www.tgir-rmn.org/

DMFit (simulation program for solid-state NMR spectra (1/2 and quadrupole spins)) http://nmr.cemhti.cnrs-orleans.fr/dmfit/

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