Critical advances and future opportunities in upcycling commodity polymers

Coralie Jehanno^{1

2}, Jill W Alty³, Martijn Roosen⁴, Steven De Meester⁵, Andrew P Dove⁶, Eugene Y-X Chen⁷, Frank A Leibfarth⁸, Haritz Sardon⁹

Affiliations

¹ POLYMAT, University of the Basque Country UPV/EHU, Donostia-San Sebastian, Spain.
² POLYKEY, Donostia-San Sebastian, Spain.
³ Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA.
⁴ Laboratory for Circular Process Engineering, Ghent University, Kortrijk, Belgium.
⁵ Laboratory for Circular Process Engineering, Ghent University, Kortrijk, Belgium. Steven.DeMeester@UGent.be.
⁶ School of Chemistry, University of Birmingham, Birmingham, UK.
⁷ Department of Chemistry, Colorado State University, Fort Collins, CO, USA.
⁸ Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. FrankL@email.unc.edu.
⁹ POLYMAT, University of the Basque Country UPV/EHU, Donostia-San Sebastian, Spain. haritz.sardon@ehu.es.

PMID: 35354997
DOI: 10.1038/s41586-021-04350-0

Review

Critical advances and future opportunities in upcycling commodity polymers

Coralie Jehanno et al. Nature. 2022 Mar.

. 2022 Mar;603(7903):803-814.

doi: 10.1038/s41586-021-04350-0. Epub 2022 Mar 30.

Authors

Coralie Jehanno^{1

2}, Jill W Alty³, Martijn Roosen⁴, Steven De Meester⁵, Andrew P Dove⁶, Eugene Y-X Chen⁷, Frank A Leibfarth⁸, Haritz Sardon⁹

Affiliations

¹ POLYMAT, University of the Basque Country UPV/EHU, Donostia-San Sebastian, Spain.
² POLYKEY, Donostia-San Sebastian, Spain.
³ Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA.
⁴ Laboratory for Circular Process Engineering, Ghent University, Kortrijk, Belgium.
⁵ Laboratory for Circular Process Engineering, Ghent University, Kortrijk, Belgium. Steven.DeMeester@UGent.be.
⁶ School of Chemistry, University of Birmingham, Birmingham, UK.
⁷ Department of Chemistry, Colorado State University, Fort Collins, CO, USA.
⁸ Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. FrankL@email.unc.edu.
⁹ POLYMAT, University of the Basque Country UPV/EHU, Donostia-San Sebastian, Spain. haritz.sardon@ehu.es.

PMID: 35354997
DOI: 10.1038/s41586-021-04350-0

Abstract

The vast majority of commodity plastics do not degrade and therefore they permanently pollute the environment. At present, less than 20% of post-consumer plastic waste in developed countries is recycled, predominately for energy recovery or repurposing as lower-value materials by mechanical recycling. Chemical recycling offers an opportunity to revert plastics back to monomers for repolymerization to virgin materials without altering the properties of the material or the economic value of the polymer. For plastic waste that is either cost prohibitive or infeasible to mechanically or chemically recycle, the nascent field of chemical upcycling promises to use chemical or engineering approaches to place plastic waste at the beginning of a new value chain. Here state-of-the-art methods are highlighted for upcycling plastic waste into value-added performance materials, fine chemicals and specialty polymers. By identifying common conceptual approaches, we critically discuss how the advantages and challenges of each approach contribute to the goal of realizing a sustainable plastics economy.

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References

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Critical advances and future opportunities in upcycling commodity polymers

Affiliations

Critical advances and future opportunities in upcycling commodity polymers

Authors

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Abstract

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