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Reprocessing Cross-linked Polyurethanes by Catalyzing Carbamate Exchange

preprint
submitted on 07.06.2019 and posted on 10.06.2019 by David J. Fortman, Daylan T. Sheppard, William Dichtel

The reprocessing or recycling of cross-linked polymers by incorporating dynamic covalent cross- links has the potential to increase their usable lifetimes and reduce their environmental impact. Polyurethanes (PUs) are the largest class of cross-linked polymers; however, their direct recycling into similar value materials is not well-developed. We demonstrate that several Lewis acid catalysts mediate urethane exchange selectively and under mild conditions. Incorporating these catalysts into cross-linked polyether and polyester PUs with structures similar to commercial PU thermosets gives cross-linked materials that can completely relax stress in 100 seconds at temperatures as low as 140 oC. The dynamic polymers were reprocessed via compression molding to provide materials with similar cross-linking densities to as-synthesized materials. Because these systems are based on commercially available PU monomers and inexpensive Lewis acid catalysts, we anticipate that these findings will enable the recycling of traditional thermosetting PUs.

Funding

Center for Sustainable Polymers

Directorate for Mathematical & Physical Sciences

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CEMRI: Multifunctional Nanoscale Material Structures

Directorate for Mathematical & Physical Sciences

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NNCI: Soft and Hybrid Nanotechnology Experimental (SHyNE) Resource

Directorate for Engineering

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History

Email Address of Submitting Author

wdichtel@northwestern.edu

Institution

Northwestern University

Country

USA

ORCID For Submitting Author

0000-0002-3635-6119

Declaration of Conflict of Interest

Northwestern University has filed patent applications related the findings described in this manuscript.

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