An unusual endo-selective C-H hydroarylationof norbornene by the Rh(I)-catalyzed reactionof benzamides

Kaname Shibata,Satoko Natsui,Mamoru Tobisu,Naoto Chatani,Yoshiya Fukumoto

doi:10.1038/s41467-017-01531-2

Kaname Shibata, Satoko Natsui + Show 3 more

Open Access

https://doi.org/10.1038/s41467-017-01531-2

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Journal: Nature Communications	Publication Date: Nov 13, 2017
Citations: 36	License type: open-access

Affiliation: Osaka University

Abstract

Hydroarylation is an environmentally attractive strategy which incorporates all of the atoms contained in the substrates into the desired products. Almost all the hydroarylations of norbornene reported to date involve an exo-selective reaction. Here we show the endo-selective hydroarylation of norbornene in the Rh(I)-catalyzed reaction of aromatic amides. The addition of sterically bulky carboxylic acids enhances the endo-selectivity of the reaction. The results of deuterium-labeling experiments show that both the ortho-carbon and the ortho-hydrogen atoms of aromatic amides were attached to the same carbon atom of the norbornane skeleton in the hydroarylation product. These results clearly suggest that hydrometalation or carbometalation, which are commonly accepted mechanisms for the catalytic hydroarylation of C–H bonds, are not involved as the key step in the present reaction, and suggest that the reaction involves a rhodium carbene complex generated from norbornene as the key intermediate.

Highlights

Hydroarylation is an environmentally attractive strategy which incorporates all of the atoms contained in the substrates into the desired products
Numerous advances in the catalytic activation of C–H bonds have been made in the past decades[4,5,6,7,8,9,10,11,12,13,14]
We report on an unusual, endo-selective hydroarylation of norbornene that proceeds via the Rh(I)-catalyzed reaction of aromatic amides by taking advantage of an 8-aminoquinoline directing group[5]

Summary

Heteroatom-metalation

M Exo-manner Fig. 1 Conventional key steps in catalytic addition reactions to norbornene. Irrespective of the mechanism, the addition reactions of X–Y species to norbornene proceed in an exo-manner. 4-methyltetrahydropyran [Rh(OAc)(cod)]2 2.5 mol% acid 1 equiv. We report on an unusual, endo-selective hydroarylation of norbornene that proceeds via the Rh(I)-catalyzed reaction of aromatic amides by taking advantage of an 8-aminoquinoline directing group[5]. The available evidence, based on deuteriumlabeling experiments, suggests that a carbene mechanism is involved

Results

Norbornene derivatives

A D atom was not incorporated at the 2-position

Rh N H

Methods