Site-selective and stereoselective functionalization of unactivated C-H bonds

Kuangbiao Liao¹, Solymar Negretti¹, Djamaladdin G Musaev², John Bacsa¹, Huw M L Davies¹

Affiliations

¹ Department of Chemistry, Emory University, 1515 Dickey Drive, Atlanta, Georgia 30322, USA.
² Cherry L. Emerson Center for Scientific Computation, Emory University, 1521 Dickey Drive, Atlanta, Georgia, 30322, USA.

PMID: 27172046
DOI: 10.1038/nature17651

Site-selective and stereoselective functionalization of unactivated C-H bonds

Kuangbiao Liao et al. Nature. 2016.

. 2016 May 12;533(7602):230-4.

doi: 10.1038/nature17651.

Authors

Kuangbiao Liao¹, Solymar Negretti¹, Djamaladdin G Musaev², John Bacsa¹, Huw M L Davies¹

Affiliations

¹ Department of Chemistry, Emory University, 1515 Dickey Drive, Atlanta, Georgia 30322, USA.
² Cherry L. Emerson Center for Scientific Computation, Emory University, 1521 Dickey Drive, Atlanta, Georgia, 30322, USA.

PMID: 27172046
DOI: 10.1038/nature17651

Abstract

The laboratory synthesis of complex organic molecules relies heavily on the introduction and manipulation of functional groups, such as carbon-oxygen or carbon-halogen bonds; carbon-hydrogen bonds are far less reactive and harder to functionalize selectively. The idea of C-H functionalization, in which C-H bonds are modified at will instead of the functional groups, represents a paradigm shift in the standard logic of organic synthesis. For this approach to be generally useful, effective strategies for site-selective C-H functionalization need to be developed. The most practical solutions to the site-selectivity problem rely on either intramolecular reactions or the use of directing groups within the substrate. A challenging, but potentially more flexible approach, would be to use catalyst control to determine which site in a particular substrate would be functionalized. Here we describe the use of dirhodium catalysts to achieve highly site-selective, diastereoselective and enantioselective C-H functionalization of n-alkanes and terminally substituted n-alkyl compounds. The reactions proceed in high yield, and functional groups such as halides, silanes and esters are compatible with this chemistry. These studies demonstrate that high site selectivity is possible in C-H functionalization reactions without the need for a directing or anchoring group present in the molecule.

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Comment in

Organic chemistry: Precision pruning of molecules.
Yang KS, Engle KM. Yang KS, et al. Nature. 2016 May 12;533(7602):183-4. doi: 10.1038/533183a. Nature. 2016. PMID: 27172040 No abstract available.

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Site-selective and stereoselective functionalization of unactivated C-H bonds

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Site-selective and stereoselective functionalization of unactivated C-H bonds

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