Chemical Modification of Oxidized Polyethylene Enables Access to Functional Polyethylenes with Greater Reuse

聚乙烯 化学 表面改性 聚合物 衍生化 化学改性 有机化学 氢化物 化学工程 高分子化学 工程类 物理化学 高效液相色谱法
作者
Jake X. Shi,Nicodemo R. Ciccia,Subhajit Pal,D. Kim,John N. Brunn,Carlos Lizandara‐Pueyo,Martin Ernst,Alexander M. Haydl,Phillip B. Messersmith,Brett A. Helms,John F. Hartwig
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (39): 21527-21537 被引量:32
标识
DOI:10.1021/jacs.3c07186
摘要

Polyethylene is a commodity material that is widely used because of its low cost and valuable properties. However, the lack of functional groups in polyethylene limits its use in applications that include adhesives, gas barriers, and plastic blends. The inertness of polyethylene makes it difficult to install groups that would enhance its properties and enable programmed chemical decomposition. To overcome these deficiencies, the installation of pendent functional groups that imbue polyethylene with enhanced properties is an attractive strategy to overcome its inherent limitations. Here, we describe strategies to derivatize oxidized polyethylene that contains both ketones and alcohols to monofunctional variants with bulk properties superior to those of unmodified polyethylene. Iridium-catalyzed transfer dehydrogenation with acetone furnished polyethylenes with only ketones, and ruthenium-catalyzed hydrogenation with hydrogen furnished polyethylenes with only alcohols. We demonstrate that the ratio of these functional groups can be controlled by reduction with stoichiometric hydride-containing reagents. The ketones and alcohols serve as sites to introduce esters and oximes onto the polymer, thereby improving surface and bulk properties over those of polyethylene. These esters and oximes were removed by hydrolysis to regenerate the original oxygenated polyethylenes, showing how functionalization can lead to materials with circularity. Waste polyethylenes were equally amenable to oxidative functionalization and derivatization of the oxidized material, showing that this low- or negative-value feedstock can be used to prepare materials of higher value. Finally, the derivatized polymers with distinct solubilities were separated from mechanically mixed plastic blends by selective dissolution, demonstrating that functionalization can lead to novel approaches for distinguishing and separating polymers from a mixture.

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