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Overcoming the Low Driving Force in Forming Depolymerizable Polymers through Monomer Isomerization

Hanlin Chen, Zhen Shi, Tze‐Gang Hsu, Junpeng Wang

2021Angewandte Chemie International Edition64 citationsDOI

Abstract

While depolymerizable polymers have been intensely pursued as a potential solution to address the challenges in polymer sustainability, most depolymerization systems are characterized by a low driving force in polymerization, which poses difficulties for accessing diverse functionalities and architectures of polymers. Here, we address this challenge by using a cyclooctene-based depolymerization system, in which the cis-to-trans alkene isomerization significantly increases the ring strain energy to enable living ring-opening metathesis polymerization at monomer concentrations ≥0.025 M. An additional trans-cyclobutane fused at the 5,6-position of the cyclooctene reduces the ring strain energy of cyclooctene, enabling the corresponding polymers to depolymerize into the cis-cyclooctene monomers. The use of excess triphenylphosphine was found to be essential to suppress secondary metathesis and depolymerization. The high-driving-force living polymerization of the trans-cyclobutane fused trans-cyclooctene system holds promise for developing chemically recyclable polymers of a wide variety of polymer architectures.

Topics & Concepts

DepolymerizationCyclooctenePolymerizationCyclobutanePolymerMonomerRing-opening metathesis polymerisationROMPMetathesisMaterials sciencePolymer chemistryChemistryOrganic chemistryRing (chemistry)CatalysisSynthetic Organic Chemistry Methodsbiodegradable polymer synthesis and propertiesChemical Synthesis and Analysis
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