Z. Sh. Idiyatullin scite author profile

The transport properties near the percolation temperature threshold in the ternary water-in-oil microemulsion stabilized by ionic surfactant has been studied by measuring the self-diffusion coefficients of all the constituents of the microemulsion, and the conductivity for temperatures between 10 and 40 °C. It can be conjectured that two different transition mechanisms of the charge carriers in this temperature region may take place. These may be attributed to either the transfer of counterions from one droplet to another through water channels or hopping of surfactant ions from droplets within clusters. The results support the hypothesis that the conductivity and dielectric polarization below the percolation threshold is mainly due to the motion of counterions via water channels within the droplet clusters and not a charge-hopping mechanism at the surfactant interface. Above the percolation threshold the latter mechanism also appears, connected with migration of surfactant molecules from droplet to droplet within a percolation cluster. The first mechanism, however, still dominantes.

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A Fourier transform pulsed-gradient spin echo nuclear magnetic resonance self-diffusion study of microemulsions and the droplet size determination

Fedotov

Zuev

Archipov

et al. 1997

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Self-diffusion in microemulsions and micellar size

et al. 1996

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Aggregation behavior and catalytic activity of systems based on calix[4]resorcinarene derivatives and surfactants. 1. Mixed micellization of aminomethylated calix[4]resorcinarenes with cetyltrimethylammonium bromide in aqueous dimethylformamide

Рыжкина

Pashirova

Filippova

et al. 2004

Russian Chemical Bulletin

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Micelles and Aggregates of Oxyethylated Isononylphenols and Their Extraction Properties near Cloud Point

et al. 2014

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We used nuclear magnetic resonance (NMR) spectroscopy and dynamic light scattering (DLS) techniques to study the structural and dynamic properties of micellar solutions of nonionic surfactants of a homologous series of oxyethylated isononylphenols--C9H19C6H4O(C2H4O)(n)H, where n = 6, 8, 9, 10, or 12--in a wide range of temperatures, including cloud points. The radii of the micelles and aggregates, as well as their compositions at different concentrations of surfactant, were determined. Using aqueous phenol solutions as a model, we studied the process of cloud point extraction with oxyethylated isononylphenols.

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Z. Sh. Idiyatullin

Mechanism of Transport of Charge Carriers in the Sodium Bis(2-ethylhexyl) Sulfosuccinate−Water−Decane Microemulsion near the Percolation Temperature Threshold

A Fourier transform pulsed-gradient spin echo nuclear magnetic resonance self-diffusion study of microemulsions and the droplet size determination

Self-diffusion in microemulsions and micellar size

Aggregation behavior and catalytic activity of systems based on calix[4]resorcinarene derivatives and surfactants. 1. Mixed micellization of aminomethylated calix[4]resorcinarenes with cetyltrimethylammonium bromide in aqueous dimethylformamide

Micelles and Aggregates of Oxyethylated Isononylphenols and Their Extraction Properties near Cloud Point

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