链内酮实现的环状交联聚乙烯。

Circular Cross-Linked Polyethylene Enabled by In-Chain Ketones.

作者信息

Morgen Tobias O, Mecking Stefan

机构信息

Chair of Chemical Materials Science, University of Konstanz, Department of Chemistry, Universitätsstraße 10, 78457 Konstanz, Germany.

出版信息

ACS Macro Lett. 2024 Dec 17;13(12):1655-1661. doi: 10.1021/acsmacrolett.4c00660. Epub 2024 Nov 15.

DOI:10.1021/acsmacrolett.4c00660

PMID:39546423

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11656715/

Abstract

Cross-linked polyethylenes (PEs) are widely employed, but the permanent links between the chains impede recycling. We show that via imine formation with diamines keto-functionalized polyethylenes from both free-radical (keto-low-density PE, keto-LDPE) and catalytic (keto-high-density PE, keto-HDPE) nonalternating ethylene-CO copolymerization can be cross-linked efficiently in the melt, resulting in gel fractions of the formed cross-linked PEs of up to 85% and improved tensile properties. The imine-based cross-links in the material can be hydrolyzed at 140 °C to recycle up to 97% of the initial thermoplastic keto-polyethylene. Low keto contents of ≤1.5 mol % are found ideal to retain PE-like thermal properties, achieve sufficient cross-link density, and maintain circular recyclability.

摘要

交联聚乙烯（PEs）被广泛应用，但链之间的永久连接阻碍了回收利用。我们表明，通过与二胺形成亚胺，由自由基（酮基低密度PE，酮基-LDPE）和催化（酮基高密度PE，酮基-HDPE）非交替乙烯-CO共聚反应得到的酮官能化聚乙烯可以在熔体中高效交联，形成的交联PEs的凝胶分数高达85%，拉伸性能得到改善。材料中的亚胺基交联键可以在140°C下水解，以回收高达97%的初始热塑性酮基聚乙烯。发现酮含量≤1.5 mol%的低酮含量非常理想，既能保持类似PE的热性能，实现足够的交联密度，又能保持循环可回收性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/940c/11656715/5607e3d0667b/mz4c00660_0001.jpg

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链内酮实现的环状交联聚乙烯。

Circular Cross-Linked Polyethylene Enabled by In-Chain Ketones.

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