Zero-Valent Metals Accelerate the Neopentylglycolborylation of Aryl Halides Catalyzed by NiCl2-Based Mixed-Ligand Systems

The highly active mixed-ligand catalytic system NiCl2(dppp)/dppf combined with the reducing effect of zerovalent Zn and of other metals was used to demonstrate a method for the dramatic acceleration of the rate and for the enhancement of the yield of Ni-catalyzed neopentylglycolborylation of aryl ha...

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Bibliographic Details
Published in:Journal of organic chemistry 2010-11, Vol.75 (22), p.7822-7828
Main Authors: Leowanawat, Pawaret, Resmerita, Ana-Maria, Moldoveanu, Costel, Liu, Chi, Zhang, Na, Wilson, Daniela A, Hoang, Lisa M, Rosen, Brad M, Percec, Virgil
Format: Article
Language:English
Subjects:
B derivatives
Boranes - chemistry
Catalysis
Chemistry
Exact sciences and technology
Heterocyclic compounds
Hydrocarbons, Halogenated - chemistry
Ligands
Metals - chemistry
Miscellaneous
Molecular Structure
Nickel - chemistry
Organic chemistry
Organometalloidal and organometallic compounds
Preparations and properties
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Summary:The highly active mixed-ligand catalytic system NiCl2(dppp)/dppf combined with the reducing effect of zerovalent Zn and of other metals was used to demonstrate a method for the dramatic acceleration of the rate and for the enhancement of the yield of Ni-catalyzed neopentylglycolborylation of aryl halides. A diversity of electron-rich and electron-deficient aryl iodides, bromides, and chlorides were efficiently neopentylglycolborylated, typically in 1 h or less. This acceleration is particularly remarkable for the generally less reactive aryl bromides and chlorides and for all ortho-substituted aryl halides. By accelerating the rate of borylation and reducing its reaction time to complete conversion, pathways leading to protodeborylated or hydrodehalogenated side products have a reduced impact on the outcome of the overall reaction. Although Zn powder was the reducing agent of choice, compatibility of this technique with more readily recoverable Zn chips, as well as other metals such as Mn, Mg, Fe, Al, and Ca, has demonstrated the broad scope of this synthetic method.
ISSN:0022-3263
1520-6904
DOI:10.1021/jo101718v