Molecular Weight Dependence of Polymersome Membrane Elasticity and Stability
Abstract
Vesicles prepared in water from a series of diblock copolymers and termed "polymersomes" are physically characterized. With increasing molecular weight Mn, the hydrophobic core thickness d for the self-assembled bilayers of polyethyleneoxide - polybutadiene (PEO-PBD) increases up to 20 nm - considerably greater than any previously studied lipid system. The mechanical responses of these membranes, specifically, the area elastic modulus Ka and maximal areal strain αc are measured by micromanipulation. As expected for interface-dominated elasticity, Ka ( 100 pN/nm) is found to be independent of Mn. Related mean-field ideas also predict a limiting value for αc which is universal and about 10-fold above that typical of lipids. Experiments indeed show αc generally increases with Mn, coming close to the theoretical limit before stress relaxation is opposed by what might be chain entanglements at the highest Mn. The results highlight the interfacial limits of self-assemblies at the nano-scale.
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