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Block Poly(carbonate-ester) Ionomers as High-Performance and Recyclable Thermoplastic Elastomers.


ABSTRACT: Thermoplastic elastomers based on polyesters/carbonates have the potential to maximize recyclability, degradability and renewable resource use. However, they often underperform and suffer from the familiar trade-off between strength and extensibility. Herein, we report well-defined reprocessable poly(ester-b-carbonate-b-ester) elastomers with impressive tensile strengths (60 MPa), elasticity (>800 %) and recovery (95 %). Plus, the ester/carbonate linkages are fully degradable and enable chemical recycling. The superior performances are attributed to three features: (1) Highly entangled soft segments; (2) Fully reversible strain-induced crystallization and (3) Precisely placed ZnII -carboxylates dynamically crosslinking the hard domains. The one-pot synthesis couples controlled cyclic monomer ring-opening polymerization and alternating epoxide/anhydride ring-opening copolymerization. Efficient convresion to ionomers is achieved by reacting vinyl-epoxides to install ZnII -carboxylates.

SUBMITTER: Gregory GL 

PROVIDER: S-EPMC9828403 | biostudies-literature | 2022 Nov

REPOSITORIES: biostudies-literature

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Block Poly(carbonate-ester) Ionomers as High-Performance and Recyclable Thermoplastic Elastomers.

Gregory Georgina L GL   Sulley Gregory S GS   Kimpel Joost J   Łagodzińska Matylda M   Häfele Lisa L   Carrodeguas Leticia Peña LP   Williams Charlotte K CK  

Angewandte Chemie (International ed. in English) 20221021 47


Thermoplastic elastomers based on polyesters/carbonates have the potential to maximize recyclability, degradability and renewable resource use. However, they often underperform and suffer from the familiar trade-off between strength and extensibility. Herein, we report well-defined reprocessable poly(ester-b-carbonate-b-ester) elastomers with impressive tensile strengths (60 MPa), elasticity (>800 %) and recovery (95 %). Plus, the ester/carbonate linkages are fully degradable and enable chemical  ...[more]

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