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Polymer Skeletal Editing via Anionic Brook Rearrangements

Maxim Ratushnyy, Aleksandr V. Zhukhovitskiy

2021Journal of the American Chemical Society39 citationsDOI

Abstract

This report communicates the first example of polymer backbone metamorphosis affected by anionic 1,2-Brook rearrangement of acyl silane moieties. Introduction of the acyl silane functionality into a polymer backbone was achieved via acyclic diene metathesis copolymerization (ADMET) of diene 1 and two dienes. We demonstrate that, using organolithium species and cyanide as nucleophiles, the backbones of resulting copolymers can be triggered to undergo highly efficient 1,2-Brook rearrangement, which transforms the poly(acyl silane)s into poly(silyl ether)s. Furthermore, the carbanion intermediate of the 1,2-Brook rearrangement can be intercepted by ketone electrophiles to give rise to polymers with quaternary stereogenic centers in the backbone and pendant functionality. Such structural editing of polymer backbones enables a new retrosynthetic paradigm for silicon-containing polymers that could not be accessed by traditional means.

Topics & Concepts

ChemistrySilaneElectrophileDieneCopolymerRetrosynthetic analysisMetathesisAnionic addition polymerizationPolymerSilyl etherPolymer chemistryStereocenterEtherKetoneLiving anionic polymerizationCarbanionNucleophilePolymerizationSilylationOrganic chemistryEnantioselective synthesisCatalysisTotal synthesisNatural rubberSynthetic Organic Chemistry MethodsChemical Synthesis and AnalysisCatalytic Cross-Coupling Reactions
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