136664-63-6Relevant articles and documents
Copper-Catalyzed Amide Radical-Directed Cyanation of Unactivated Csp3-H Bonds
Zhang, Hongwei,Zhou, Yulu,Tian, Peiyuan,Jiang, Cuiyu
supporting information, (2019/03/19)
A method for site-selective intermolecular δ/?-Csp3-H cyanation of aliphatic sulfonamides is developed using TsCN as the cyanating reagent, catalyzed by a Cu(I)/phenanthroline complex. The mild, expeditious, and modular protocol allows efficient remote Csp3-H cyanation with good functional group tolerance and high regioselectivity. Mechanistic studies indicate that the reaction might proceed through a Cu(I)-mediated N-F bond cleavage to generate an amidyl radical, 1,5-HAT, and cyano group transfer of the resulting carbon radical with TsCN.
Chemoselective Intramolecular Functionalization of Methyl Groups in Nonconstrained Molecules Promoted by N-Iodosulfonamides
Paz, Nieves R.,Rodríguez-Sosa, Dionisio,Valdés, Haydee,Marticorena, Ricardo,Melián, Daniel,Copano, M. Belén,González, Concepción C.,Herrera, Antonio J.
supporting information, p. 2370 - 2373 (2015/06/02)
Mechanistic evidence observed in Hofmann-L?ffler-Freytag-type reactions has been crucial to achieve the chemoselective functionalization of methyl groups under mild conditions. Radical-mediated methyl iodination and subsequent oxidative deiodination are the key steps in this functionalization, where iodine chemistry has a pivotal role on the formation of the C-N bond. The concepts of single hydrogen atom transfer (SHAT) and multiple hydrogen atom transfer (MHAT) are introduced to describe the observed chemoselectivity. (Chemical Equation Presented).
