> Details

Gregory, Georgina L.; Sulley, Gregory S.; Kimpel, Joost; Łagodzińska, Matylda; Häfele, Lisa; Carrodeguas, Leticia Peña; Williams, Charlotte K.

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

Reference
management

Bookmarks

Remove from
bookmarks

Share this on Whatsapp

Close

Bookmarks



You can manage bookmarks using lists, please log in to your user account for this.
  • Media type: E-Article
  • Title: Block Poly(carbonate‐ester) Ionomers as High‐Performance and Recyclable Thermoplastic Elastomers
  • Contributor: Gregory, Georgina L.; Sulley, Gregory S.; Kimpel, Joost; Łagodzińska, Matylda; Häfele, Lisa; Carrodeguas, Leticia Peña; Williams, Charlotte K.
  • Published: Wiley, 2022
  • Published in: Angewandte Chemie International Edition, 61 (2022) 47
  • Language: English
  • DOI: 10.1002/anie.202210748
  • ISSN: 1433-7851; 1521-3773
  • Origination:
  • Footnote:
  • Description: AbstractThermoplastic 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.