Kinetics of the surface tension of micellar solutions: Comparison of different experimental techniques |
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Authors: | J. V. Mitrancheva C. D. Dushkin P. Joos |
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Affiliation: | (1) Laboratory of Thermodynamics and Physico-chemical Hydrodynamics Faulty of Chemistry, University of Sofia 1, James Baucher Blvd, 1126 Sofia, Bulgaria;(2) Laboratory of Dynamic Surface Tension Department Scheikunde, Antwerp University, 1 Universiteitsplein, 2610 Wilrijk, Belgium |
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Abstract: | The kinetics of the surface tension of micellar solutions of nonionic surfactant Triton X-100 is measured experimentally by means of three different techniques: oscillating jet, maximum bubble pressure and inclined plate. They allow to study the micellization kinetics at various time scales (from a few milliseconds to a few seconds) in fairly large concentration region up to 50 times CMC. The experimental data are satisfactorily explained by a theoretical model accounting for the kinetics of micellization, diffusion of surfactant species and expansion of the bubble interface. By this model are computed the characteristic times of diffusion and micellization, which are of comparable magnitude (about 5 to 200 ms), and the Gibbs' elasticity. The micellization time constant corresponds to the slow relaxation process known to coincide with the disintegration of micelles. Comparing our data with other data from literature one can conclude that more realistic information for the micellization kinetics is obtained by the maximum bubble pressure and the oscillating jet method. The inclined plate seems too slow to measure the relaxation processes in micellar solutions of this surfactant. |
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Keywords: | Micellization kinetics maximum bubble pressure oscillating jet inclined plate Triton X-100 Gibbs elasticity |
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