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PISOX Copolyesters─Bio- and CO<sub>2</sub>-Based Marine-Degradable High-Performance Polyesters

Kevin van der Maas, Yue Wang, Daniel H. Weinland, Robert‐Jan van Putten, Bing Wang, Gert‐Jan M. Gruter

2024ACS Sustainable Chemistry & Engineering13 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Oxalate esters and isosorbide serve as intriguing polymer building blocks, as they can be sourced from renewable resources, such as CO 2 and glucose, and the resulting polyesters offer outstanding material properties. However, the low reactivity of the secondary hydroxyl groups makes it difficult to generate high-molecular-weight polymers from isosorbide. Combining diaryl oxalates with isosorbide appears to be a promising approach to produce high-molecular-weight isosorbide-based polyoxalates (PISOX). This strategy seems to be scalable, has a short polymerization time (<5 h), and uniquely, there is no need for a catalyst. PISOX demonstrates outstanding thermal, mechanical, and barrier properties; its barrier to oxygen is 35 times better than PLA, it possesses mechanical properties comparable to high-performance thermoplastics, and the glass transition temperature of 167 °C can be modified by comonomer incorporation. What makes this high-performance material truly exceptional is that it decomposes into CO 2 and biomass in just a few months in soil under home-composting conditions and it hydrolyzes without enzymes present in less than a year in 20 °C water. This unique combination of properties has the potential to be utilized in a range of applications, such as biomedical uses, water-resistant coatings, compostable plastic bags for gardening and agriculture, and packaging plastics with diminished environmental impact.

Topics & Concepts

PolyesterMaterials scienceChemistryChemical engineeringPolymer chemistryPolymer scienceOrganic chemistryEngineeringbiodegradable polymer synthesis and propertiesCarbon dioxide utilization in catalysisCatalysis for Biomass Conversion
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