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Diffusion and Electrophoretic Studies Using Nuclear Magnetic Resonance
KTH, School of Chemical Science and Engineering (CHE), Chemistry, Physical Chemistry.
2011 (English)In: Encyclopedia of Analytical Chemistry: Applications, Theory and Instrumentation, Supplementary Volumes S1 - S3 / [ed] Robert A. Meyers, John Wiley & Sons, 2011, 1439-1461 p.Chapter in book (Refereed)
Abstract [en]

The NMR diffusometry methodology and instrumentation currently available is routinely capable of quite fast multicomponent self-diffusion mapping in solution, providing a quantitative pathway to many analytical applications as well as physicochemical information. A measurement time span of approximately 10 min may suffice, and an accuracy of a few percent or better is normally routinely achievable. Relating the behavior of self-diffusion coefficients of solution components to, e.g. solution composition changes adds another dimension to the field and a path to quantitative methods for elucidation of, e.g. molecular association or conformational changes even in complex systems. In routine form, the techniques are primarily applicable to liquid systems and use proton (1H) NMR detection. A limited number of nuclei other than protons (primarily 2H, 7Li, 13C, 19F, 31P) are also amenable for monitoring. Electrophoretic NMR (eNMR) is a related, less exploited technique, which has a more limited applicability than NMR diffusometry, but which can be uniquely useful. Instrumental and methodological advances have lately also opened up the application field to proton-detected diffusion studies in semisolid systems.

Place, publisher, year, edition, pages
John Wiley & Sons, 2011. 1439-1461 p.
Keyword [en]
NMR, diffusion, self-diffusion, transport, association, binding, mixture analysis, PGSE, DOSY, eNMR, electrophoretic, magnetic field gradient, PFG, HR-MAS
National Category
Analytical Chemistry
URN: urn:nbn:se:kth:diva-52722DOI: 10.1002/9780470027318.a9052ISBN: 978-0-470-97333-2OAI: diva2:467541
QC 20111219Available from: 2011-12-19 Created: 2011-12-19Bibliographically approved

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