Structure of the water/surfactant interface in micelles : an NMR study of SDS micelles labelled with paramagnetic ions

Cabane, Bernard

doi:10.1051/jphys:01981004206084700

Cited by 85 publications

(49 citation statements)

References 29 publications

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“…The 1D-and 2D-NMR evidence presented here indicate that at least some of the EO groups in the polymer are penetrating the palisade layer of the Na x-PhDec surfactant micelles, and that these measurements are consistent with the binding of the PEO to the surfactant micelle. The binding model proposed by Cabane et al [34], whereby the PEO polar group interacts with the surface of the surfactant, is not supported by the results presented for these systems. The NMR chemical shifts and the 2D-NO-ESY cross peaks lead to the conclusion that at least some of the PEO protons are indeed in close proximity to the surfactant aromatic groups.…”

Section: Discussioncontrasting

confidence: 56%

“…Given the extensive investigations on these systems, it is surprising that the manner in which the surfactant and polymer interact to form aggregates is still controversial. For example, Cabane's 13 C-NMR chemical shift studies of the poly(ethylene oxide)/sodium dodecylsulfate (PEO/SDS) system indicate that when PEO is added to SDS solutions, significant 13 C-chemical shifts are observed for the first three methylene groups adjacent to the SDS head group [34]. These chemical shift differences decrease gradually for subsequent SDS methylene segments and were interpreted in terms of the location of the PEO polymer near the SDS head groups.…”

Section: Introductionmentioning

confidence: 98%

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A 1D‐ and 2D‐NMR Study of an Anionic Surfactant/Neutral Polymer Complex

Landry

Marangoni

Arden

et al. 2009

J Surfact & Detergents

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NMR chemical shifts and linewidth measurements were examined for mixtures of sodium 10-phenyldecanoate (Na x-PhDec) in deuterated aqueous solutions in the presence of varying compositions of poly(ethylene oxide) (PEO) polymers of 2000 and 4000 molecular weight. In addition, variable temperature NMR spectra and NMR spin lattice relaxation times (T 1 ) were obtained for the PEO-4000/Na x-PhDec system as a function of varying polymer concentrations. As expected, the polymer/surfactant systems exhibit the behaviour typical of that of an anionic surfactant/ neutral polymer system with well defined critical aggregation concentrations (CMC) corresponding to the formation of polymer/surfactant complexes below the CMC of the free surfactant. The 1 H-NMR linewidths acquired for the Na xPhDec/PEO-4000 system before and after the CMC region of the surfactant indicate that the maximum in the linewidth of the PEO proton peak is reached at approximately twice the CMC of the free surfactant. 2D-NMR NOESY measurements on this system exhibit cross peaks between the PEO protons and the protons on the surfactant backbone, consistent with the location of the phenyl group in the micellar interior. All these NMR experiments are interpreted in terms of the structure of the polymer/surfactant complexes as a function of the system composition.

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Section: Discussioncontrasting

confidence: 56%

Section: Introductionmentioning

confidence: 98%

A 1D‐ and 2D‐NMR Study of an Anionic Surfactant/Neutral Polymer Complex

Landry

Marangoni

Arden

et al. 2009

J Surfact & Detergents

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“…Thus the D20 signal of the heavy water solvent was in effct used as shiftreference (see further discussion below). Eleven of the twelve carbons in SDS could be resolved and the assignment is based on results presented in [9]. Presented in Table 1 are the chemical shifts of the lowest concentration used in the investigation.…”

Section: Methodsmentioning

confidence: 99%

On the determination of micellar aggregation numbers from the concentration dependence of13C NMR chemical shifts

Söderman

Guering²

1987

Colloid & Polymer Sci

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Abstract:The assumptions underlying the extraction of micellar aggregation numbers by means of applying the mass action law to the concentration dependence of i3C Nuclear Magnetic Resonance (NMR) shift data are discussed. Such data are presented for sodium dodecylsulfate and it is shown that the extracted aggregation numbers are far too small. It is argued that this is in part due to a failure of the mass action law to describe the micellization process but also due to covariance in the parameters of the mass action law. We also suggest a way to analyse 13C shifts from surfactant systems that is void of artefacts due to changes in volume magnetic susceptibilities and other "unwanted" artefacts. Finally, we point out that by combining 13C shifts with the fraction of micellized surfactant (as measured by for instance self diffusion coefficients) it should be possible to monitor changes in micellar shapes as the conditions are changed.

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“…The relaxation rate induced by the paramagnetic ion Mn 2+ bound to the phosphate decreases roughly as the sixth power of the distance between the carbon and the ion. In micelles the carbon atoms are confined in the apolar core, folding back of the chains having a low probability, so that the average distance increases with the number of the carbon (numbered from the phosphoryl C1 to the terminal methyl C8 [19,20], a quantitative interpretation of this effect is in progress. The assignment is given in figure 4 and in table 2.…”

Section: Carbon 13 Nmrmentioning

confidence: 99%

NMR investigation of the micellar properties of monoalkylphoshpates

Chevalier

Chachaty

1984

Colloid & Polymer Sci

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Abstract:The micellization of several monoalkylphoshpates with chain lenghts from 6 to 10 carbons have been investigated by 31p and "C NMR spectroscopy with some additional electrical conductivity, density and small angle neutron scattering measurements.The major part of this study was performed on sodium monooctylphosphate. The critical concentration of micellization is 0.14 M, the partial molar volume is 170 cm3/mole in the micellar state. Small angle neutron scattering measurements on a 0.5 molar solution lead to an aggregation number of 43. NMR studies over the whole concentration range show that the pseudophase model holds. The geometry around the polar head is found almost unchanged upon micellization. The frequency denpendence of the 31p longitudinal relaxation is interpreted by an isotropic fas motion (rR = 6.5 x 10 -11 s for the free monomers and by a strongly anisotropic motion with D II/D• ~ 10 and ro = (6 D) -1=1.25 x 10-9s in the micellar state.

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Structure of the water/surfactant interface in micelles : an NMR study of SDS micelles labelled with paramagnetic ions

Cited by 85 publications

References 29 publications

A 1D‐ and 2D‐NMR Study of an Anionic Surfactant/Neutral Polymer Complex

A 1D‐ and 2D‐NMR Study of an Anionic Surfactant/Neutral Polymer Complex

On the determination of micellar aggregation numbers from the concentration dependence of13C NMR chemical shifts

NMR investigation of the micellar properties of monoalkylphoshpates

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