Crystallization of poly(L-lactide-dimethyl siloxane-L-lactide) triblock copolymers and its effect on morphology of microphase separation

This investigation characterizes the molten morphologies following isothermal crystallization of poly(L-lactide-block-dimethyl siloxane-block-L-lactide) triblock copolymers, which were synthesized by ring-opening polymerization of L-lactide using hydroxyl-telechelic PDMS as macroinitiators, via small-angle X-ray scattering (SAXS) and transmission electron microscopy (TEM). The break-out and preservation of the nanostructure of the triblock copolymer depended on the segregation strength, which was manipulated by varying the degree of polymerization. The crystallization kinetics of these semicrystalline copolymers and the effect of isothermal crystallization on their melting behaviors were also studied using DSC, FT-IR and WAXS. The exclusive presence of alpha-phase PLLA crystallite was verified by identifying the absence of the WAXS diffraction signal at 2 theta = 24.5 and the presence of IR absorption at 1749 cm(-1) when the PLLA segment of the block copolymers was present as a minor component. The dependence of the crystallization rate (Rc) on the chemical composition of the triblock copolymers reveals that the Rc of the triblock copolymers was lower than that of PLLA homopolymer and the Rc were substantially reduced when the minor component of the crystallizable PLLA domains was dispersed in the PDMS matrix. (C) 2009 Elsevier Ltd. All rights reserved.