Dichotomous mechanistic behavior in Narasaka-Heck cyclizations: Electron rich Pd-catalysts generate iminyl radicals

Nicholas J. Race; Adele Faulkner; Megan H. Shaw; John F. Bower

doi:10.1039/c5sc04037j

Dichotomous mechanistic behavior in Narasaka-Heck cyclizations: Electron rich Pd-catalysts generate iminyl radicals

Nicholas J. Race, Adele Faulkner, Megan H. Shaw, John F. Bower

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Abstract

Pd-catalyzed cyclizations of oxime esters with pendant alkenes are subject to an unusual ligand controlled mechanistic divergence. Pd-systems modified with electron deficient phosphines (e.g. P(3,5-(CF₃)₂C₆H₃)₃) promote efficient aza-Heck cyclization, wherein C-N bond formation occurs via alkene imino-palladation. Conversely, electron rich ligands, such as P(t-Bu)₃, cause deviation to a SET pathway and, in these cases, C-N bond formation occurs via cyclization of an iminyl radical. A series of mechanistic experiments differentiate the two pathways and the scope of the hybrid organometallic radical cyclization is outlined. This study represents a rare example in Pd-catalysis where selection between dichotomous mechanistic manifolds is facilitated solely by choice of phosphine ligand.

Original language	English (US)
Pages (from-to)	1508-1513
Number of pages	6
Journal	Chemical Science
Volume	7
Issue number	2
DOIs	https://doi.org/10.1039/c5sc04037j
State	Published - 2016
Externally published	Yes

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© 2016 The Royal Society of Chemistry.

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abstract = "Pd-catalyzed cyclizations of oxime esters with pendant alkenes are subject to an unusual ligand controlled mechanistic divergence. Pd-systems modified with electron deficient phosphines (e.g. P(3,5-(CF3)2C6H3)3) promote efficient aza-Heck cyclization, wherein C-N bond formation occurs via alkene imino-palladation. Conversely, electron rich ligands, such as P(t-Bu)3, cause deviation to a SET pathway and, in these cases, C-N bond formation occurs via cyclization of an iminyl radical. A series of mechanistic experiments differentiate the two pathways and the scope of the hybrid organometallic radical cyclization is outlined. This study represents a rare example in Pd-catalysis where selection between dichotomous mechanistic manifolds is facilitated solely by choice of phosphine ligand.",

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AU - Bower, John F.

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AB - Pd-catalyzed cyclizations of oxime esters with pendant alkenes are subject to an unusual ligand controlled mechanistic divergence. Pd-systems modified with electron deficient phosphines (e.g. P(3,5-(CF3)2C6H3)3) promote efficient aza-Heck cyclization, wherein C-N bond formation occurs via alkene imino-palladation. Conversely, electron rich ligands, such as P(t-Bu)3, cause deviation to a SET pathway and, in these cases, C-N bond formation occurs via cyclization of an iminyl radical. A series of mechanistic experiments differentiate the two pathways and the scope of the hybrid organometallic radical cyclization is outlined. This study represents a rare example in Pd-catalysis where selection between dichotomous mechanistic manifolds is facilitated solely by choice of phosphine ligand.

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Dichotomous mechanistic behavior in Narasaka-Heck cyclizations: Electron rich Pd-catalysts generate iminyl radicals

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