Ultrathin crosslinked membranes at the interface between oil and water

Abstract

AbstractThe tensio‐active properties of different types of diesters can be used to synthesize two‐dimensional model networks at the interface between oil and water. We have systematically studied rubber‐elastic, glass‐like and transient membranes, which are stabilized and crosslinked by physical or chemical contacts. The kinetics of surface gelation and the mechanical properties of the crosslinked membranes were investigated by measuring two‐dimensional rheological parameters, such as the shear modulus or the surface viscosity. The experimental data of these investigations are in fairly good agreement with the theoretical predictions of percolation theories. Further informations on the molecular structure of the crosslinked membranes can be obtained from electron spin resonance (ESR) measurements. Using spin labels of significantly different sizes, which are diffusing from the aqueous environment into the oil phase, it is possible to determine the average mesh size of the interfacial network structure. The systematic study of these ultrathin membranes offers new insights into aspects of current research, and opens interesting new technical applications.