Foam films as instrumentation in the study of amphiphile self-assembly

Abstract

A survey on recent experimental investigations of microscopic foam films containing self-assembled amphiphilic structures is presented. A specific advantage of the microscopic film techniques is that the fine control of system parameters allows the estimation of the consecutive changes of film properties for low surfactant content and extremely small concentration changes. This gives a unique possibility to reach amphiphile quantities when initial onset of self-assembly is to be observed. The film characteristics are investigated via microinterferometric method, which operates with the measuring cell of Scheludko-Exerowa. The experimental set is additionally improved by including video-recording and consecutive image analysis. The results show the following: (1) Unstable black patterns (dots and spots) are observed; they have very short lifetimes and the films, which contain them rupture quickly. (2) Several of the kinetic characteristics of the films display a sharp change within a narrow surfactant concentration range. The experiments are interpreted on the basis of the assumption that a series of smaller self-assembled aggregates (premicelles) with various geometries exist at the interfaces and inside the thin film. The proposed theoretical scheme puts forward a mechanism connecting the formation of unstable black patterns (dots and spots) with the reorganization and destruction of the existing surfactant assemblies both in the bulk of the film and on the interfaces. The results suggest that the observed unstable black formations may serve as indicators for the presence of surfactant structures in amphiphilic solutions and the microscopic foam-film techniques has a serious potential as a prospective instrumentation in the study of amphiphilic self-assemblies.