Efficient solvent- and hydrogen-free upcycling of high-density polyethylene into separable cyclic hydrocarbons

Plastic pollution is a planetary threat that has been exacerbated by the COVID-19 pandemic due to the surge in medical waste, personal protective equipment and takeaway packaging. A socially sustainable and economically viable method for plastic recycling should not use consumable materials such as...

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Veröffentlicht in:Nature nanotechnology 2023-07, Vol.18 (7), p.772-779
Hauptverfasser: Du, Junjie, Zeng, Lin, Yan, Tao, Wang, Chuanhao, Wang, Menglin, Luo, Lei, Wu, Wenlong, Peng, Zijun, Li, Hongliang, Zeng, Jie
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Sprache:eng
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Zusammenfassung:Plastic pollution is a planetary threat that has been exacerbated by the COVID-19 pandemic due to the surge in medical waste, personal protective equipment and takeaway packaging. A socially sustainable and economically viable method for plastic recycling should not use consumable materials such as co-reactants or solvents. Here we report that Ru nanoparticles on zeolitic HZSM-5 catalyse the solvent- and hydrogen-free upcycling of high-density polyethylene into a separable distribution of linear (C 1 to C 6 ) and cyclic (C 7 to C 15 ) hydrocarbons. The valuable monocyclic hydrocarbons accounted for 60.3 mol% of the total yield. Based on mechanistic studies, the dehydrogenation of polymer chains to form C=C bonds occurs on both Ru sites and acid sites in HZSM-5, whereas carbenium ions are generated on the acid sites via the protonation of the C=C bonds. Accordingly, optimizing the Ru and acid sites promoted the cyclization process, which requires the simultaneous existence of a C=C bond and a carbenium ion on a molecular chain at an appropriate distance, providing high activity and cyclic hydrocarbon selectivity. Ru nanoparticles on HZSM-5 catalysed solvent- and hydrogen-free upcycling of high-density polyethylene into a separable distribution of linear (C 1 to C 6 ) and cyclic (C 7 to C 15 ) hydrocarbons.
ISSN:1748-3387
1748-3395
DOI:10.1038/s41565-023-01429-9