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Phosphine-Catalyzed Aryne Oligomerization: Direct Access to α,ω-Bisfunctionalized Oligo(<i>ortho</i>-arylenes)

Marcel Bürger, Nadine Ehrhardt, Thomas Barber, Liam T. Ball, Jan C. Namyslo, Peter G. Jones, Daniel B. Werz

2021Journal of the American Chemical Society24 citationsDOIOpen Access PDF

Abstract

A phosphine-catalyzed oligomerization of arynes using selenocyanates was developed. The use of JohnPhos as a bulky phosphine is the key to accessing α,ω-bisfunctionalized oligo(ortho-arylenes) with RSe as the substituent at one terminus and CN as the substituent at the other. The in situ formation of R3PSeR′ cations, serving as sterically encumbered electrophiles, hinders the immediate reaction that affords the 1,2-bisfunctionalization product and instead opens a competitive pathway leading to oligomerization. Various optimized conditions for the predominant formation of dimers, but also for higher oligomers such as trimers and tetramers, were developed. Depending on the electronic properties of the electrophilic reaction partner, even compounds up to octamers were isolated. Optimization experiments revealed that a properly tuned phosphine as catalyst is of crucial importance. Mechanistic studies demonstrated that the cascade starts with the attack of cyanide; aryne insertion into n-mers leading to (n+1)-mers was ruled out.

Topics & Concepts

ChemistryArynePhosphineSubstituentElectrophileCatalysisSteric effectsCombinatorial chemistryStereochemistryMedicinal chemistryOrganic chemistryCyclization and Aryne ChemistryCatalytic Alkyne ReactionsAsymmetric Synthesis and Catalysis
Phosphine-Catalyzed Aryne Oligomerization: Direct Access to α,ω-Bisfunctionalized Oligo(<i>ortho</i>-arylenes) | Litcius