Unifying Step-Growth Polymerization and On-Demand Cascade Ring-Closure Depolymerization via Polymer Skeletal Editing
| Autor: | Fabiana Siragusa, Jeremy Demarteau, Thomas Habets, Ion Olazabal, Koen Robeyns, Gwilherm Evano, Raphael Mereau, Thierry Tassaing, Bruno Grignard, Haritz Sardon, Christophe Detrembleur |
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| Přispěvatelé: | UCL - SST/IMCN/MOST - Molecular Chemistry, Materials and Catalysis |
| Rok vydání: | 2022 |
| Předmět: | |
| Zdroj: | Macromolecules, Vol. 55, no.11, p. 4637-4646 (2022) |
| ISSN: | 1520-5835 0024-9297 |
| DOI: | 10.1021/acs.macromol.2c00696 |
| Popis: | The inherent skeletal and thermal features to forge polymers by step-growth polymerization are conflicting with any depolymerization strategies via cascade back-biting reactions that necessitate adequate ceiling temperature, spacers, and functionalities to create cyclic compounds. Here, we report the edition of step-growth poly(carbonate-urea)s and poly(carbonate-amide)s that are depolymerized on demand into their native precursor or added-value offspring oxazolidinones, together with a hemiacetal cyclic carbonate. The unprotected in-chain secondary amide or urea functionalities of the polymers trigger their degradation via cascade ring-closing events upon a thermal switch (from 25 to 80 °C) in the presence of an organic base as a catalyst. Although most studies are realized in solution for understanding the deconstruction process, the polymers are also fully degraded in 2 h in neat conditions without any catalyst at 150 °C. At 80 °C, the organic base is required to accelerate the process. On the road to sustainability and circularity, we validate the concept by exploiting monomers designed from waste CO2 and upcycled commodity plastics. Ultimately, these polymers are selectively depolymerized from plastic mixtures composed of commodity poly(ethylene terephthalate) and polycaprolactone, offering new options for recycling plastic waste mixtures while delivering high-value-added chemicals. |
| Databáze: | OpenAIRE |
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