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A Pyridine–Pyridine Cross‐Coupling Reaction via Dearomatized Radical Intermediates

https://doi.org/10.1002/anie.201906267

Koniarczyk, J. Luke ; Greenwood, Jacob W. ; Alegre‐Requena, Juan V. ; Paton, Robert S. ; McNally, Andrew ( September 2019 , Angewandte Chemie International Edition)

Abstract
A pyridine–pyridine coupling reaction has been developed between pyridyl phosphonium salts and cyanopyridines using B₂pin₂as an electron‐transfer reagent. Complete regio‐ and cross‐selectivity are observed when forming a range of valuable 2,4′‐bipyridines. Phosphonium salts were found to be the only viable radical precursors in this process, and mechanistic studies indicate that the process does not proceed through a Minisci‐type coupling involving a pyridyl radical. Instead, a radical–radical coupling process between a boryl phosphonium pyridyl radical and a boryl‐stabilized cyanopyridine radical explains the C−C bond‐forming step.

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A Pyridine–Pyridine Cross‐Coupling Reaction via Dearomatized Radical Intermediates

https://doi.org/10.1002/ange.201906267

Koniarczyk, J. Luke ; Greenwood, Jacob W. ; Alegre‐Requena, Juan V. ; Paton, Robert S. ; McNally, Andrew ( September 2019 , Angewandte Chemie)

Abstract
A pyridine–pyridine coupling reaction has been developed between pyridyl phosphonium salts and cyanopyridines using B₂pin₂as an electron‐transfer reagent. Complete regio‐ and cross‐selectivity are observed when forming a range of valuable 2,4′‐bipyridines. Phosphonium salts were found to be the only viable radical precursors in this process, and mechanistic studies indicate that the process does not proceed through a Minisci‐type coupling involving a pyridyl radical. Instead, a radical–radical coupling process between a boryl phosphonium pyridyl radical and a boryl‐stabilized cyanopyridine radical explains the C−C bond‐forming step.

more » « less