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Polyethylene Materials with Tunable Degradability by Incorporating In-Chain Mechanophores

Xiaohui Zhang, Yajun Zhao, Meng Chen, Minghang Ji, Ye Sha, Kyoko Nozaki, Shan Tang

2024Journal of the American Chemical Society50 citationsDOI

Abstract

Polyolefins are recognized as fundamental plastic materials that are manufactured in the largest quantities among all synthetic polymers. The chemical inertness of the saturated hydrocarbon chains is crucial for storing and using polyolefin plastics, but poses significant environmental challenges related to plastic pollution. Here, we report a versatile approach to creating polyethylene materials with tunable degradability by incorporating in-chain mechanophores. Through palladium-catalyzed coordination/insertion copolymerization of ethylene with cyclobutene-fused comonomers, several cyclobutane-fused mechanophores were successfully incorporated with varied insertion ratios (0.35-26 mol %). The resulting polyethylene materials with in-chain mechanophores exhibit both high thermal stability and remarkable acid resistance. Upon mechanochemical activation by ultrasonication or ball-milling, degradable functional units (imide and ester groups) are introduced into the main polymer chain. The synergy of mechanochemical activation and acid hydrolysis facilitates the efficient degradation of high molecular weight polyethylene materials into telechelic oligomers.

Topics & Concepts

MechanochemistryPolyethyleneChemistryPolyolefinPolymerPolymer chemistryOrganic chemistryChemical engineeringLayer (electronics)EngineeringForce Microscopy Techniques and ApplicationsCarbon Nanotubes in CompositesPolymer Surface Interaction Studies
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