Publications by authors named "Celine R Parker"

Biodegradable polyhydroxyalkanoate (PHA) homopolymers and statistical copolymers are ubiquitous in microbially produced PHAs, but the step-growth polycondensation mechanism the biosynthesis operates on presents a challenge to access well-defined block copolymers (BCPs), especially higher-order tri-BCP PHAs. Here we report a stereoselective-chemocatalytic route to produce discrete hard-soft-hard ABA all-PHA tri-BCPs based on the living chain-growth ring-opening polymerization of racemic () 8-membered diolides (-8DL; R denotes the two substituents on the ring). Depending on the composition of the soft B block, originated from -8DL (R = Et, Bu), and its ratio to the semicrystalline, high-melting hard A block, derived from -8DL, the resulting all-PHA tri-BCPs with high molar mass ( up to 238 kg mol) and low dispersity ( = 1.

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