A new NMR method is presented to measure selectively the self-diffusion coefficient of molecules with 13C-1H bonds. The method is based on the selection of spectral lines by both 13C chemical-shift and 13C-1H J-coupling encoding, which generally is adequate to individuate a molecular species. Although the approach has preferential utilization in bio-molecular systems, it may be employed when a direct or indirect chemical bond has chemical shift and J-coupling coordinates able to localize uniquely a certain molecular species. The method may also be utilized to attain self-diffusion weighted NMR imaging (MRI) of single molecular species. Here results on glucose metabolites in aqueous solutions are presented. The approach shows a chemical selectivity, which is higher than the traditional NMR stimulated echo approach. © 2004 Elsevier B.V. All rights reserved.
Casieri, C., Testa, C., Paci, M., De Luca, F. (2004). Molecular self-diffusion measurement by stimulated echo of selected 13C-1H bonds: Case of the glucose metabolites. CHEMICAL PHYSICS LETTERS, 387, 295-300 [10.1016/j.cplett.2004.02.024].
Molecular self-diffusion measurement by stimulated echo of selected 13C-1H bonds: Case of the glucose metabolites
PACI, MAURIZIO;
2004-01-01
Abstract
A new NMR method is presented to measure selectively the self-diffusion coefficient of molecules with 13C-1H bonds. The method is based on the selection of spectral lines by both 13C chemical-shift and 13C-1H J-coupling encoding, which generally is adequate to individuate a molecular species. Although the approach has preferential utilization in bio-molecular systems, it may be employed when a direct or indirect chemical bond has chemical shift and J-coupling coordinates able to localize uniquely a certain molecular species. The method may also be utilized to attain self-diffusion weighted NMR imaging (MRI) of single molecular species. Here results on glucose metabolites in aqueous solutions are presented. The approach shows a chemical selectivity, which is higher than the traditional NMR stimulated echo approach. © 2004 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.