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Aldehyde End‐Capped Degradable Polyethylenes From Hydrogen‐Controlled Ethylene/CO Copolymerization

Chuang Song, Dian Yang, Chaoqun Wang, Zhenxin Tang, Ying‐Yun Long, Yuxing Zhang, Zhongbao Jian

2024Angewandte Chemie International Edition25 citationsDOIOpen Access PDF

Abstract

Abstract To access degradable polyolefin plastic, non‐alternating copolymerization of ethylene (E) and carbon monoxide (CO) for producing polyethylene (PE) with in‐chain ketones is particularly appealing; however, it still presents significant challenges such as molecular weight modulation (hydrogen response) and chain endgroup control (functional terminal). In this study, we achieved hydrogen‐controlled E/CO non‐alternating copolymerization using late transition metal catalysts. This process results in linear PEs containing the desired non‐alternating in‐chain keto groups (1.0–9.3 mol %) and with tunable molecular weights ranging from 43 to 195 kDa. In this reaction, H 2 serves as a chain transfer agent, modulating the polymer's molecular weight, forming unique aldehyde endgroups and eliminating usual olefinic endgroups; CO undergoes non‐alternating insertion into the PE chain, resulting in a strictly non‐alternating structure (>99 %) for the keto‐PE. The dispersed incorporation of in‐chain keto groups retains bulk properties of PE and makes PE susceptible to photodegradation, which produces significantly lower molecular weight polymers and oligomers with unambiguous vinyl and acetyl terminals.

Topics & Concepts

CopolymerPolymer chemistryPolyolefinPolymerEthyleneAldehydePolyethyleneLinear low-density polyethyleneMaterials scienceCarbon monoxideCatalysisChemistryOrganic chemistryLayer (electronics)Polymer crystallization and propertiesMicroplastics and Plastic PollutionAdvanced Polymer Synthesis and Characterization