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Abstract
Polymer chemical recycling to monomers (CRM) is important to help achieve a circular plastic economy, but the “rules” governing catalyst design for such processes remain unclear. Here, carbon dioxide-derived polycarbonates undergo CRM to produce epoxides and carbon dioxide. A series of dinuclear catalysts, Mg(II)M(II) where M(II) = Mg, Mn, Fe, Co, Ni, Cu, and Zn, are compared for poly(cyclohexene carbonate) depolymerizations. The recycling is conducted in the solid state, at 140 °C monitored using thermal gravimetric analyses, or performed at larger-scale using laboratory glassware. The most active catalysts are, in order of decreasing rate, Mg(II)Co(II), Mg(II)Ni(II), and Mg(II)Zn(II), with the highest activity reaching 8100 h–1 and with >99% selectivity for cyclohexene oxide. Both the activity and selectivity values are the highest yet reported in this field, and the catalysts operate at low loadings and moderate temperatures (from 1:300 to 1:5000, 140 °C). For the best heterodinuclear catalysts, the depolymerization kinetics and activation barriers are determined. The rates in both reverse depolymerization and forward CHO/CO2 polymerization catalysis show broadly similar trends, but the processes feature different intermediates; forward polymerization depends upon a metal–carbonate intermediate, while reverse depolymerization depends upon a metal-alkoxide intermediate. These dinuclear catalysts are attractive for the chemical recycling of carbon dioxide-derived plastics and should be prioritized for recycling of other oxygenated polymers and copolymers, including polyesters and polyethers. This work provides insights into the factors controlling depolymerization catalysis and steers future recycling catalyst design toward exploitation of lightweight and abundant s-block metals, such as Mg(II).
Original language | English |
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Pages (from-to) | 15770-15778 |
Number of pages | 9 |
Journal | ACS Catalysis |
Volume | 13 |
Issue number | 24 |
Early online date | 23 Nov 2023 |
DOIs | |
Publication status | Published - 15 Dec 2023 |
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Dive into the research topics of 'Evaluating Heterodinuclear Mg(II)M(II) (M = Mn, Fe, Ni, Cu, and Zn) Catalysts for the Chemical Recycling of Poly(cyclohexene carbonate): ACS Catalysis'. Together they form a unique fingerprint.-
URF Renewal 2022 - Sugar-based Polymers as Polysaccharide and Glycan Mimics
Buchard, A. (PI)
1/10/22 → 30/09/25
Project: Research council
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Hub 'Science' 3: Catalysis for the Circular Economy and Sustainable Manufacturing
Davidson, M. (PI), Buchard, A. (CoI), Hintermair, U. (CoI) & Webster, R. (CoI)
Engineering and Physical Sciences Research Council
1/12/18 → 30/11/24
Project: Research council
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AP19: Developing Catalyst Strategies for a Truly Circular Plastic Economy
Jones, M. (PI)
Engineering and Physical Sciences Research Council
30/11/22 → 28/05/24
Project: Research council