NMR study of the influence of pH on phenol sorption in cationic CTAB micellar solutions

Sabatino, Paolo; Szczygiel, Agnieszka; Sinnaeve, Davy; Hakimhashemi, Maryam; Saveyn, Hans; Martins, José; Meeren, Paul Van der

doi:10.1016/j.colsurfa.2010.08.042

Cited by 52 publications

(40 citation statements)

References 31 publications

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“…The burying of a charged species in CTABr micelles has already been described in the literature. 38,39 It has been reported that phenol, which is located at the micelle surface when protonated, buries itself into CTABr micelles when it is deprotonated, driven by the favourable electrostatic interactions between the negatively charged phenolate ions and the positive charge of the cationic surfactant head group. As far as Receptor 2 is concerned, the PRE experiments show that its location is not markedly affected by complexation with fluor-ide and this can be explained by the fact that its lipophilicity keeps it in the internal core where it was already hosted before the addition of fluoride.…”

Section: Resultsmentioning

confidence: 99%

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

et al. 2015

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The use of micelles to transpose lipophilic receptors, such as uranyl-salophen complexes, into an aqueous environment is a valuable and versatile tool. Receptor 1 incorporated into CTABr micelles forms a supramolecular system that exhibits excellent binding properties towards fluoride in water, despite the competition of the aqueous medium. To fully evaluate the potential of micellar nanodevices, we extended our previous study to other types of surfactants and to a uranyl-salophen receptor with a more extended aromatic surface. Paramagnetic relaxation enhancement experiments were used to obtain information on the location of the two receptors within the micelles and complementary information was obtained from dynamic light scattering experiments. With these data it is possible to account for the key factors necessary to obtain an efficient supramolecular device for anion binding in water.

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Section: Resultsmentioning

confidence: 99%

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

et al. 2015

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“…NMR spectroscopy was often used for revealing the location of the indicators within the micellar pseudophases [20,25,26], together with theoretical approaches applied to the same or similar systems [27][28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

In search of an optimal acid-base indicator for examining surfactant micelles: Spectrophotometric studies and molecular dynamics simulations

Mchedlov‐Petrossyan

Farafonov

Cheipesh

et al. 2019

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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We report on combined experimental and theoretical investigations of the water/micelle interface of cationic, anionic, zwitterionic, and non-ionic surfactants using a new hydrophobic acid-base indicator 2,6dinitro-4-n-dodecylphenol. The indices of the so-called apparent ionization constant, app a pK , of the indicator fixed in the micellar pseudophase are determined by the spectrophotometric method. The data allows estimating the Stern layer's electrostatic potential of the ionic micelles . Molecular Dynamics modeling was used to locate the dye molecule and, in particular, its ionizing group OH  Owithin the micelles of the studied surfactants. The comparison of the  values estimated using 2,6-dinitro-4-ndodecylphenol with both our computer simulation and literature experimental results reveals obstacles in monitoring electrical interfacial potentials. In particular, the  values of the surfactant micelles with alkylammonium groups determined via 2,6-dinitro-4-n-dodecylphenol are overestimated. The reason is specific interactions of the indicator anion with the surfactant head groups. For anionic surfactants, however, this indicator is quite suitable, which is confirmed by the location of HA and Aequilibrium forms in the pseudophase.

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“…Aromatic rings are known to introduce differential ring current effects depending upon their proximity and orientation on neighboring protons . The ring current shifts the resonances of the interacting CH 2 ‐chain protons (low‐frequency or high‐frequency) depending upon whether they interact with the center or the edges of the aromatic rings .…”

Section: Resultsmentioning

confidence: 92%

“…Although solubilization of organics including pollutants and pharmaceuticals in micelles is an intensive area of research, details of the loci of internalization and the intermolecular interactions defining them are seldom elucidated . NMR studies along these lines, however, have been reported on the solubilization of substituted benzenes in CTAB, valsartan in SDS and CTAB, and polyaromatics in nonionic dendritic micelles; however, making direct comparisons with our studies is challenging due to the differences in molecular systems. Kreke et al attempted to assign the resonances of CTAB in presence of dichloro benzoates, but the conclusions were tentative, considering the resonance overlap in this region.…”

Section: Resultsmentioning

confidence: 98%

“…1 H chemical shift perturbation, diffusion coefficient measurements using pulse field gradients, and nuclear Overhauser effect (NOE) spectroscopy had been applied to probe the solubilization of aromatics in micelles . The systems investigated span a wide range of complexity, but the measurements are relatively unique and powerful due to its ability to follow the spectral changes of the constituents (surfactants and solubilizates) independently …”

Section: Introductionmentioning

confidence: 99%

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Solubilization of organics I: ¹H NMR chemical shift perturbations, diffusometry, and NOESY indicate biphenyls internalize in micelles formed by cetyltrimethylammonium bromide

Peroza

Chen

Wurster

et al. 2019

Magnetic Reson in Chemistry

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Polychlorinated biphenyls are a class of persistent environmental contaminants, and micellar solubilization can be applied to remediate them. The intermolecular aggregates of biphenyl (BP) analogs and cetyltrimethyl ammonium bromide (CTAB) were studied by chemical shift perturbation, nuclear magnetic resonance (NMR) diffusometry, quantitative proton NMR, and nuclear Overhauser effect (NOE) spectroscopy to understand the structural determinants of their solubilization. The micelles of CTAB solubilized BPs readily, but its capacity depended strongly on the nature of the functional group (BPCH 2 OH > > BPCHO > BPCOOH ≈ BPCl ≈ BP). Upon internalization, the BPs diffused much slower, introduced significant low-frequency 1 H chemical shift changes for CTAB, and displayed strong intermolecular NOEs. The semiquantitative analysis of NOEs revealed further that the BPs are located in the palisade layer closer to the N + (CH 3 ) 3 head group, away from the hydrophobic core. 1 H NMR offers a simple high-throughput screening assay for evaluating and quantitating the solubilization of organics in micelles. The intermolecular NOEs and site-specific perturbation of chemical shifts add further insights on the location of solubilizates in micelles, which may be important for designing surfactants specific for environmental pollutants.

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NMR study of the influence of pH on phenol sorption in cationic CTAB micellar solutions

Cited by 52 publications

References 31 publications

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

In search of an optimal acid-base indicator for examining surfactant micelles: Spectrophotometric studies and molecular dynamics simulations

Solubilization of organics I: ¹H NMR chemical shift perturbations, diffusometry, and NOESY indicate biphenyls internalize in micelles formed by cetyltrimethylammonium bromide

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NMR study of the influence of pH on phenol sorption in cationic CTAB micellar solutions

Cited by 52 publications

References 31 publications

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

Fluoride binding in water with the use of micellar nanodevices based on salophen complexes

In search of an optimal acid-base indicator for examining surfactant micelles: Spectrophotometric studies and molecular dynamics simulations

Solubilization of organics I: 1H NMR chemical shift perturbations, diffusometry, and NOESY indicate biphenyls internalize in micelles formed by cetyltrimethylammonium bromide

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Solubilization of organics I: ¹H NMR chemical shift perturbations, diffusometry, and NOESY indicate biphenyls internalize in micelles formed by cetyltrimethylammonium bromide