Crystallinity and Crystalline Confinement of the Amorphous Phase in Polylactides

Summary: Stereorregular polylactides such as poly (L-lactide) (PLLA) or poly (D-lactide) result from polymerization of optically pure lactides and are semicrystalline. Optically non-active poly(D,L-lactide) (PDLLA) can be regarded as random or atactic copolymers, show a random moiety distribution, and are completely amorphous. In this work three phases, comprising mobile amorphous fraction (MAF, χ_MA), rigid amorphous fraction (RAF, χ_RA) and crystalline fraction (χ_c) were determined in PLLA. It will be shown that RAP fraction not only elevates Tg but also increases the dynamic fragility (m) of polylactide chains around the Tg. These results agree with reported cases in which topologycal constraints inhibit longer range dynamics and suggest a smaller length scale of cooperativity of chains in confined environments.