Changes in charge density and softness of a poly( l-lactide) microcapsule surface in the hydrolytic degradation process

Abstract

The changes in surface properties of poly( l-lactide) microcapsules caused by hydrolytic degradation have been studied with electrophoretic mobility measurements. An electrokinetic model has been applied to examine the electrophoretic mobility data, which were previously analyzed with a model that does not take into account the liquid flow inside the microcapsule membrane [K. Makino, H. Ohshima and T. Kondo, J. Microencapsulation, 4 (1987) 47]. The present new model involves two parameters, the charge density in the microcapsule membrane and a softness parameter, the latter of which characterizes the reciprocal of the frictional coefficient of the polymer exerted on the liquid flow. Information about the changes in charge density and in the softness of the poly( l-lactide) microcapsule surface have been newly obtained. The surface charge density increases by the cleavage of ester bonds in the polymer chain in the initial stage of the degradation process. It then gradually decreases down to the value for intact poly( l-lactide) microcapsules as a result of the release of degraded polymer segments from the microcapsule surface. Also, as the degradation proceeds, the softness parameter value increases, suggesting that the surface of the microcapsules becomes softer, probably because the surface becomes porous. The above change in the softness and the decrease in charge density at the later stage of the degradation both imply liberation of charged polymer segments. The degradation of poly( l-lactide) microcapsules proceeds by alternate repetition of cleavage of the ester bonds in the polymer chains and liberation of the degraded polymer segments from the surface.