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Conversion of waste poly(vinyl chloride) to branched polyethylene mediated by silylium ions

Zachary A. Wood, Eunice C. Castro, Annie Hoai Nguyen, Megan E. Fieser

2024Chemical Science25 citationsDOIOpen Access PDF

Abstract

, to furnish PE products. Complete dechlorination of PVC can be achieved in 2 hours, yielding organic polymer that has similar spectroscopic and thermal signatures of branched PE, with no observable chlorine. The degree of branching can be tuned between 31 and 57 branches per 1000 carbons, with melting temperatures ranging from 51 to 93 °C. This method is applicable to not only pure PVC, but also commercial PVC products. Depending on if the PVC products are separated from plasticizers, different melting points of the resulting PE are observed. PVC dechlorination in the presence of PE waste is also shown. This is the first report of being able to cleanly convert PVC waste to PE in high yields and tune the thermal properties of the PE product, highlighting the remarkable control that silylium ion mediated transformations enables compared to past chemical methods.

Topics & Concepts

Vinyl chloridePolyethyleneBranching (polymer chemistry)Polymer chemistryIonChlorideChemistryOrganic chemistryLewis acids and basesMaterials sciencePolymerCatalysisCopolymerPolymer Science and PVCMicroplastics and Plastic Pollutionbiodegradable polymer synthesis and properties
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