Molecular self-diffusion in micellar and discrete cubic phases of an ionic surfactant with mixed monovalent/polymeric counterions
Author
Summary, in English
The molecular self-diffusion in concentrated aqueous mixtures based on an oppositely charged po
ymer-surfactant pair has been investigated by NMR pulsed field gradient techniques. The investigated structures were an ordered cubic Pm3n phase (ca. 50 wt % water) and a disordered micellar phase, both containing cetyltrimethylammonium (CTA(+)) micelles with mixed acetate (Ac-) and polyacrylate (PA(-)) counterions. In the cubic phase, CTA(+) gave broad lines in the H-1 NMR spectrum, which made it possible to use the pulsed field gradient (PFG) spin echo (SE) technique to measure the PA(-) diffusion. The observed diffusion coefficients for the four different molecular species covered 4 orders of magnitude with the rate of diffusion decreasing in the order water > Ac- > PA(-) > CTA(+). For all species, the diffusion coefficients were largely insensitive to the counterion composition. A model considering obstruction effects and binding to the micelles could account for the reduced diffusion of Ac- and CTA(+) compared to dilute reference solutions. For water, the reduction of the diffusion was mainly
ue to obstruction effects. The PA(-) diffusion was much more retarded than the
Ac- diffusion in the cubic phase; moreover, the molecular weight
dependence of the diffusion was dramatically enhanced for the
polydisperse polyion. Both effects are attributed to electrostatic
attractions and obstruction effects experienced by polyions diffusing
in a concentrated matrix of stationary
micelles.
ymer-surfactant pair has been investigated by NMR pulsed field gradient techniques. The investigated structures were an ordered cubic Pm3n phase (ca. 50 wt % water) and a disordered micellar phase, both containing cetyltrimethylammonium (CTA(+)) micelles with mixed acetate (Ac-) and polyacrylate (PA(-)) counterions. In the cubic phase, CTA(+) gave broad lines in the H-1 NMR spectrum, which made it possible to use the pulsed field gradient (PFG) spin echo (SE) technique to measure the PA(-) diffusion. The observed diffusion coefficients for the four different molecular species covered 4 orders of magnitude with the rate of diffusion decreasing in the order water > Ac- > PA(-) > CTA(+). For all species, the diffusion coefficients were largely insensitive to the counterion composition. A model considering obstruction effects and binding to the micelles could account for the reduced diffusion of Ac- and CTA(+) compared to dilute reference solutions. For water, the reduction of the diffusion was mainly
ue to obstruction effects. The PA(-) diffusion was much more retarded than the
Ac- diffusion in the cubic phase; moreover, the molecular weight
dependence of the diffusion was dramatically enhanced for the
polydisperse polyion. Both effects are attributed to electrostatic
attractions and obstruction effects experienced by polyions diffusing
in a concentrated matrix of stationary
micelles.
Department/s
Publishing year
2003
Language
English
Pages
13241-13250
Publication/Series
The Journal of Physical Chemistry Part B
Volume
107
Issue
47
Document type
Journal article
Publisher
The American Chemical Society (ACS)
Topic
- Physical Chemistry
Status
Published
ISBN/ISSN/Other
- ISSN: 1520-5207