NMR Evidence for Grotthuss-like Proton Diffusion on the Surface of N-Alkyl-ammonium Micelles in Acidic Aqueous Solution

Dramatic enhancements of proton exchange rates, by a factor of up to ca. 10 × 10 4 , are observed in acidic aqueous solution on formation of micelles of N -alkyl-ammonium chlorides C n H 2 n +1 NH x Me 3 − x , with n  = 8–12 and x  = 1 or 2. Exchange rate/concentration plots at constant pH yield the...

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Bibliographic Details
Published in:Journal of solution chemistry 2017-08, Vol.46 (8), p.1698-1720
Main Authors: Delpuech, Jean J., Dupont-Leclercq, Laurence, Parant, Stephane, Henry, Bernard
Format: Article
Language:English
Subjects:
Ammonium chloride
Analytical chemistry
Aqueous solutions
Chemical Sciences
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Fluorescence
Geochemistry
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Linearity
Micelles
NMR
Nuclear magnetic resonance
Oceanography
Physical Chemistry
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Summary:Dramatic enhancements of proton exchange rates, by a factor of up to ca. 10 × 10 4 , are observed in acidic aqueous solution on formation of micelles of N -alkyl-ammonium chlorides C n H 2 n +1 NH x Me 3 − x , with n  = 8–12 and x  = 1 or 2. Exchange rate/concentration plots at constant pH yield the cmc value as the break point abscissa and the micellar NMR rate constant k mic as the asymptotic limit. The linearity of k mic as a function of 1/[H + ] and the saturation factor of ammonium hydrogens have put in evidence a pH increase in the immediate surrounding of the micelle surface by ca. two units, and a Grotthuss-like pH-independent proton transfer from one polar head to the next. The number of diffusion steps is shown to increase with the length of the carbon chain and the nature of the polar head, due to a higher compactness of micelles and a greater counter-ionic screening effect up to 0.82. The cmc data obtained in the present work have the peculiarity of being obtained in highly acidic solutions, allowing for an in-depth discussion of pH- cmc relationships, and are in fair agreement with those obtained by chemical shift, fluorescence and conductivity measurements, with the advantage of an improved sensitivity.
ISSN:0095-9782
1572-8927
DOI:10.1007/s10953-017-0672-1