Issue 11, 2024

High performance long chain polyesters via melt copolymerization of cutin-inspired monomers

Abstract

Biopolymers have exhibited potential as sustainable and circular replacements to existing commodity thermoplastic polymers. However, current biopolymers are limited by poor thermomechanical performance compared with their petroleum-derived counterparts. Herein, we report a simple strategy to achieve good mechanical properties in bio-inspired long-chain polyesters via melt copolymerization. By combining mono- and poly-hydroxyl functionalized long chain fatty acids, we show that tough, semi-crystalline materials can be produced that outperform related biopolymers in terms of their thermomechanical behavior. We envision that long-chain polyesters derived from hydroxylated fatty acids represent an ideal platform to create the next generation of commodity thermoplastics that possess advantaged properties, inherent biodegradability, and feedstock stability.

Graphical abstract: High performance long chain polyesters via melt copolymerization of cutin-inspired monomers

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Article information

Article type
Paper
Submitted
08 avg 2024
Accepted
20 sep 2024
First published
24 sep 2024

RSC Sustain., 2024,2, 3289-3297

High performance long chain polyesters via melt copolymerization of cutin-inspired monomers

Z. Zhu, J. T. Damron, J. K. Keum, L. Kearney, V. Bocharova and J. C. Foster, RSC Sustain., 2024, 2, 3289 DOI: 10.1039/D4SU00454J

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