Nickel-Catalyzed Negishi Arylations of Propargylic Bromides: A Mechanistic Investigation

Nickel-Catalyzed Negishi Arylations of Propargylic Bromides: A Mechanistic Investigation

Although nickel-catalyzed stereoconvergent couplings of racemic alkyl electrophiles are emerging as a powerful tool in organic chemistry, to date there have been no systematic mechanistic studies of such processes. Herein, we examine the pathway for enantioselective Negishi arylations of secondary p...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 136; no. 47; pp. 16588 - 16593
Main Authors: Schley, Nathan D, Fu, Gregory C
Format: Journal Article
Language:English
Published: United States American Chemical Society 26-11-2014
Subjects:
Alkanes - chemical synthesis
Alkanes - chemistry
Bimetals
Bonding
Bromides
Catalysis
Couplings
Cross coupling
Models, Molecular
Molecular Structure
Nickel
Nickel - chemistry
Oxidation-Reduction
Pargyline - analogs & derivatives
Pargyline - chemistry
Pathways
Radicals
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Summary:Although nickel-catalyzed stereoconvergent couplings of racemic alkyl electrophiles are emerging as a powerful tool in organic chemistry, to date there have been no systematic mechanistic studies of such processes. Herein, we examine the pathway for enantioselective Negishi arylations of secondary propargylic bromides, and we provide evidence for an unanticipated radical chain pathway wherein oxidative addition of the C–Br bond occurs through a bimetallic mechanism. In particular, we have crystallographically characterized a diamagnetic arylnickel­(II) complex, [(i-Pr-pybox)­NiIIPh]­BArF 4, and furnished support for [(i-Pr-pybox)­NiIIPh]+ being the predominant nickel-containing species formed under the catalyzed conditions as well as a key player in the cross-coupling mechanism. On the other hand, our observations do not require a role for an organonickel­(I) intermediate (e.g., (i-Pr-pybox)­NiIPh), which has previously been suggested to be an intermediate in nickel-catalyzed cross-couplings, oxidatively adding alkyl electrophiles through a monometallic pathway.
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ISSN:0002-7863
1520-5126
DOI:10.1021/ja508718m