par Luhmer, Michel 
;Dejaegere, Annick P. ;Reisse, Jacques
Référence Magnetic resonance in chemistry, 27, 10, page (950-952)
Publication Publié, 1989
;Dejaegere, Annick P. ;Reisse, Jacques Référence Magnetic resonance in chemistry, 27, 10, page (950-952)
Publication Publié, 1989
Article révisé par les pairs
| Résumé : | The chemical shift (δ) of a xenon monoatomic molecule is very sensitive to the environment. The major contribution to this shift arises from the van der Waals interactions between the solvent and the xenon molecules. Usually, this solvent effect is interpreted via a reaction field model. This approach leads to a search for a correlation between δ and a function of the square of the refractive index of the solvent [f(n2)]. This paper illustrates the use of a theoretical model developed in our laboratory for the interpretation of the solvent effect on the xenon chemical shift. This model allowed the calculation of the xenon-solvent dispersion energy (Edis) for different solvents, and the correlation of Edis with δ. The Edis-δ correlation is clearly better than the f(n2)-δ correlation. |
