Abstract
An economic and biocompatible Schiff base tri-zinc catalyst was used to synthesize homo/copolymers of l-lactide (LA) and ε-caprolactone (CL) in bulk at first time. Both 1H and 13C NMR analyses show that LA is more active than CL, resulting in a poly(LA-grad-CL) copolymer with gradient sequence structure. A series of copolymers containing varying LA/CL ratios were readily synthesized. The chemical structure of poly(LA-grad-CL) was fully investigated using NMR and GPC technologies. TGA, DSC, DMA and nanoindentation instruments were employed to evaluate thermal and mechanical properties of these polymers. The results indicate that polymer composition and chain structure have a great impact on the crystallization behavior and crystallinity, as well as the thermal and mechanical properties of the copolymers. Therefore, the performance of the copolymer can be then tailored by simply adjusting the ratios of LA to CL.
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