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Highly Enantioselective Access to Functionalized Organoboranes via Carbene-mediated Asymmetric B-H Insertion
Update time: 2015-06-12
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Recently, Prof. XU Ming-Hua and his co-workers at Shanghai Institute of Materia Medica succeeded in the development of the first Rh(I)-carbene-mediated asymmetric B-H insertion reaction of α-diazo carbonyl compounds with readily available amine-borane adducts. This Rh(I)-catalyzed process using novel C1-symmetric chiral diene ligands allows practical construction of stereogenic C-B bonds in a highly enantioselective manner under exceptionally mild conditions.

Organoboranes are among the most widely and frequently used compounds in morden organic synthesis, materials science, drug discovery and other fields. Although much efforts have been devoted in recent years, new strategy for preparation of versatile chiral organoboranes remains rare.

It has been demonstrated that rhodium(I) complexes with diverse chiral ligands are efficient catalysts for various asymmetric reactions, however, the related Rh(I)?carbene chemistry is far less studied. In continuing the interest in rhodium(I)/olefin chemistry, Xu and co-workers conceived the possibility of performing the asymmetric metal?carbene insertion into B?H bonds using Rh(I) complex with proper olefin-chelating ligand as catalyst. After careful examinations, they successfully discovered that a variety of α-diazoesters and ketones can be efficiently converted into the corresponding α-boryl products in high yields with excellent enantioselectivities under unprecedented rhodium(I)/diene catalysis at room temperature. The finding provides a promising new approach to the synthesis of enantiomerically enriched functionalized organoboranes. Notably, the use of easily accessible and inexpensive amine-borane adduct as boron source makes the new method particularly attractive and practical.

This work has been published in the Journal of American Chemical Society (JACS) as a cover paper (2015, 137(16), 5268-5271). It has also been selected by the JACS Editorial Office as a feature in JACS Spotlights (Chiral Organoboranes from B-H Insertion by Carbenes, 2015, 137(16), 5239). In addition, the work is highlighted by Synfacts (2015, 11, 502) for its significance in the area.

           

(Image by ACS Publications)

                   

About the Cover:

A powerful chiral rhodium(I) catalytic system is discovered that could efficiently promote unprecedented asymmetric B–H insertion reactions of α-diazoesters/α-diazoketones and amine–borane adducts to afford valuable functionalized organoboranes. The success of using stable, inexpensive 1-methylpyrrolidine–borane for this challenging C–B bond formation is demonstrated for the first time.

Key Words : Asymmetric catalysis, organoborane, rhodium(I), carbene, B–H insertion

Abstract :A unique rhodium(I)-- catalyzed asymmetric B-H insertion of α-diazo carbony1 compounds with easily available amine-borane adducts was achieved using a newly developed C1-symmetric chiral diene as ligand. This first Rh(I)-carbene-directed B-H insertion example represents an attractive and promising approach for synthesis of highly enantioenriched organoboron compounds, allowing for the efficient construction of α-borylesters and ketones with excellent enantioselectivities (up to 99% ee) under exceptionally mild conditions.

Contact: XU Minghua (xumh@simm.ac.cn)

Full text:http://pubs.acs.org/doi/full/10.1021/jacs.5b00892

 
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