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Toughening CO 2 -Derived Copolymer Elastomers Through Ionomer Networking.

Kam C PoonGeorgina L GregoryGregory S SulleyFernando VidalCharlotte K Williams
Published in: Advanced materials (Deerfield Beach, Fla.) (2023)
Utilizing carbon dioxide (CO 2 ) to make polycarbonates through the ring-opening copolymerization (ROCOP) of CO 2 and epoxides valorizes and recycles CO 2 and reduces pollution in polymer manufacturing. Recent developments in catalysis provide access to polycarbonates with well-defined structures and allow for copolymerization with biomass-derived monomers; however, the resulting material properties are under-investigated. Here, new types of CO 2 -derived thermoplastic elastomers (TPEs) are described together with a generally applicable method to augment tensile mechanical strength and Young's modulus without requiring material re-design. These TPEs combine high glass transition temperature (T g ) amorphous blocks comprising CO 2 -derived poly(carbonates) (A-block), with low T g poly(ε-decalactone), from castor oil, (B-block) in ABA structures. The poly(carbonate) blocks are selectively functionalized with metal-carboxylates, where the metals are Na(I), Mg(II), Ca(II), Zn(II) and Al(III). The colorless polymers, featuring <1 wt% metal, show tunable thermal (T g ), and mechanical (elongation at break, elasticity, creep-resistance) properties. The best elastomers show >50-fold higher Young's modulus and 21-times greater tensile strength, without compromise to elastic recovery, compared with the starting block polymers. They have wide operating temperatures (-20 to 200 ˚C), high creep-resistance and yet remain recyclable. In future, these materials could substitute high-volume petrochemical elastomers and be utilized in high-growth fields like medicine, robotics and electronics. This article is protected by copyright. All rights reserved.
Keyphrases
  • carbon dioxide
  • high resolution
  • risk assessment
  • human health
  • middle aged
  • mass spectrometry
  • wastewater treatment
  • health risk
  • health risk assessment
  • climate change
  • drinking water