Litcius/Paper detail

Synthesis of Polydiynes <i>via</i> an Unexpected Dimerization/Polymerization Sequence of C3 Propargylic Electrophiles

Han‐Li Sun, Bin Wu, Da-Qi Liu, Zi‐Di Yu, Junjie Wang, Qianyi Liu, Xingchen Liu, Dawen Niu, Jin‐Hu Dou, Rong Zhu

2022Journal of the American Chemical Society12 citationsDOI

Abstract

Here, we describe the unexpected discovery of a Cu-catalyzed condensation polymerization reaction of propargylic electrophiles (CPPE) that transforms simple C3 building blocks into polydiynes of C6 repeating units. This reaction was achieved by a simple system composed of a copper acetylide initiator and an electron-rich phosphine ligand. Alkyne polymers (up to 33.8 kg/mol) were produced in good yields and exclusive regioselectivity with high functional group compatibility. Hydrogenation of the product afforded a new polyolefin-type backbone, while base-mediated isomerization led to a new type of dienyne-based electron-deficient conjugated polymer. Mechanistic studies revealed a new α–α selective Cu-catalyzed dimerization pathway of the C3 unit, followed by in situ organocopper-mediated chain-growth propagation. These insights not only provide an important understanding of the Cu-catalyzed CPPE of C3, C4, and C6 monomers in general but also lead to a significantly improved synthesis of polydiynes from simpler starting materials with handles for the incorporation of an α-end functional group.

Topics & Concepts

ChemistryElectrophileAlkyneAcetylideCombinatorial chemistryRegioselectivityPolymerizationIsomerizationPhosphineMonomerPolymer chemistryConjugated systemCatalysisOrganic chemistryStereochemistryPolymerSynthetic Organic Chemistry MethodsCatalytic Alkyne ReactionsCatalytic Cross-Coupling Reactions