A pendant drop technique has been used to study the adsorption of a nonionic surfactant, an alkyldimethylphosphine oxide (C(13)DMPO), at the water/hexane interface. The measured interfacial tensions exhibit a steep initial decrease, pass through a minimum, and then level off at a value which depends on the initial surfactant concentration in the drop. This time dependence of the interfacial tension can be interpreted by an adsorption with a subsequent transfer of the surfactant into the second bulk phase, hexane. Measurements of the distribution coefficient show that the solubility of C(13)DMPO is much higher in hexane than in water. A qualitative model is proposed which describes the observed dynamic interfacial tensions.
Adsorption kinetics of alkylphosphine oxides at water/hexane interface .1. Pendant drop experiments
Ferrari;Ravera F;
1997
Abstract
A pendant drop technique has been used to study the adsorption of a nonionic surfactant, an alkyldimethylphosphine oxide (C(13)DMPO), at the water/hexane interface. The measured interfacial tensions exhibit a steep initial decrease, pass through a minimum, and then level off at a value which depends on the initial surfactant concentration in the drop. This time dependence of the interfacial tension can be interpreted by an adsorption with a subsequent transfer of the surfactant into the second bulk phase, hexane. Measurements of the distribution coefficient show that the solubility of C(13)DMPO is much higher in hexane than in water. A qualitative model is proposed which describes the observed dynamic interfacial tensions.| File | Dimensione | Formato | |
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