Adsense

Raji Chem World Search Engine

Custom Search

Find the Properties of Chemicals

Nature Chemistry

Nature Chemistry

Adsense

Nature Chemistry

Saturday, August 27, 2011

Intramolecular Oxidative C−N Bond Formation


Intramolecular Oxidative C−N Bond Formation for the Synthesis of Carbazoles: Comparison of Reactivity between the Copper-Catalyzed and Metal-Free Conditions



Abstract Image

New synthetic procedures for intramolecular oxidative C−N bond formation have been developed for the preparation of carbazoles starting from N-substituted amidobiphenyls under either Cu-catalyzed or metal-free conditions using hypervalent iodine(III) as an oxidant. Whereas iodobenzene diacetate or bis(trifluoroacetoxy)iodobenzene alone undergoes the reaction to provide carbazole products in moderate to low yields, combined use of copper(II) triflate and the iodine(III) species significantly improves the reaction efficiency, giving a more diverse range of products in good to excellent yields. On the basis of mechanistic studies including kinetic profile, isotope effects, and radical inhibition experiments, the copper species is proposed to catalytically activate the hypervalent iodine(III) oxidants. The synthetic utility of the present approach was nicely demonstrated in a direct synthesis of indolo[3,2-b]carbazole utilizing a double C−N bond formation.

No comments:

Adsende

Science: Current Issue

Angewandte Chemie

Advanced Synthesis & Catalysis

Chemistry - A European Journal

European Journal of Organic Chemistry

Chemical Reviews

Journal of the American Chemical Society

The Journal of Organic Chemistry

Organometallics

Organic Letters

RSC - Chem. Sci. latest articles

ACS Catalysis: Latest Articles (ACS Publications)

RSC - Chem. Sci. latest articles

RSC - Chem. Commun. latest articles

RSC - RSC Adv. latest articles

Science Magazine Podcast