Junichi Oizumi scite author profile

Interactions in binary mixtures: Partial structure factors in mixtures of sodium dodecyl sulfate micelles and colloidal silica Structure of complex systems using electronic excitation transport: Theory, Monte Carlo simulations, and experiments on micelle solutionsThe influence of sodium salicylate ͑NaSal͒ concentration on the linear micelle formation in an aqueous solution of cetyltrimethylammonium bromide ͑CTAB͒ is investigated by the frequency-domain electric birefringence relaxation spectroscopy ͑FEB method͒. The contour length L of linear micelles is found to increase with increasing NaSal concentration C s but for further increase of C s in excess of the CTAB concentration, L decreases, i.e., linear micelles break into shorter pieces. The FEB result indicates also that the diffusion constant of salicylate ions bound to a linear micelle is nearly independent of C s with an average value smaller than that of free salicylate ions.

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Dynamic Light Scattering in a Sponge Phase of a Nonionic Surfactant

Kimura

Oizumi

Hayakawa

1999

Molecular Crystals and Liquid Crystals Science and Technology.

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Dynamics of counterions bound to linear micelles in solutions as studied by electric birefringence relaxation and high-frequency dielectric relaxation spectroscopies

Oizumi

Kimura

Ito

et al. 1998

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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High-Frequency Dielectric Relaxation of Linear Micelles in Aqueous Solutions of Cetyltrimethylammonium Bromide with Sodium Salicylate

et al. 1997

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It is well-known that ionic surfactants in aqueous solutions with added salts aggregate to form a linear (rodlike or wormlike) micelle with electric charges. 1-3 This kind of linear micelle can be called a quasi-polyion because it has a charge distribution and linear conformation similar to the polyion. It is noted, however, that the linear micelle is different from the polyion in that the number of surfactant molecules (i.e., "monomers") constituting the micelle is changeable with environmental conditions. For example, when salts of usual kinds are added to the ionic surfactant solutions, the aggregation of surfactants proceeds and the contour length L of a linear micelle becomes longer. An exceptional salt is sodium salicylate (NaSal) 4-6 added to aqueous solutions of cetyltrimethylammonium bromide (CTAB): when the ratio of the NaSal concentration C S to the surfactant concentration C CTAB is less than unity, the viscoelastic measurement indicates that the relaxation time gets longer with increasing C S , which implies that the aggregation of surfactant proceeds. When the ratio of C S to the C CTAB is larger than unity, the relaxation time decreases with increasing C S , which is peculiar to NaSal.In a recent study we have investigated the influence of NaSal concentration C S on the dynamics of linear micelles in CTAB solutions by using the frequency-domain electric birefringence relaxation (FEB) spectroscopy. 7 The FEB spectroscopy gives the information on the relaxation time for the micelle rotation as well as the relaxation time of the low-frequency (LF) dielectric relaxation due to the induced dipole moment produced by Salcounterions which are tightly bound to the linear micelle and can fluctuate along the micelle contour. The dependence of the contour length L of linear micelles on the NaSal concentration C S has been obtained from the both relaxation times, which shows that Salions play an decisive role in the surfactant aggregation. We have also found that the diffusion constant of tightly bound Salions along the micelle contour is smaller than the diffusion constant of Salions in a free state. This hindered diffusion of Salions along the micelle contour is consistent with an NMR result 5 which suggests that Salions put their aromatic rings half into the micelle. The fluctuation of Salions along the micelle contour causes the fluctuation of charge density along the contour and produces positively and negatively charged local areas on the micelle, even if the micelle is neutral in the average. This situation can be treated by Oosawa's theory 8 for the polarizability of polyelectrolytes due to the fluctuation of counterions along the polyions. In the present case, the other counterions, Brand Na + ions, are expected to be loosely bound to the local areas with positive and negative charges, respectively, and fluctuate in the direction perpendicular to the micelle contour much faster than the charge fluctuation due to Salions. This faster fluctuation of loosely bound counterions is expected to produce the h...

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Junichi Oizumi

Dynamic Light Scattering of A Lyotropic Liquid Crystal Lamellar Phase and A Sponge Phase

Electric birefringence relaxation spectroscopy of linear micelles in aqueous cetyltrimethylammonium bromide solutions with sodium salicylate

Dynamic Light Scattering in a Sponge Phase of a Nonionic Surfactant

Dynamics of counterions bound to linear micelles in solutions as studied by electric birefringence relaxation and high-frequency dielectric relaxation spectroscopies

High-Frequency Dielectric Relaxation of Linear Micelles in Aqueous Solutions of Cetyltrimethylammonium Bromide with Sodium Salicylate

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