α-Amino Radical-Mediated Diverse Difunctionalization of Alkenes: Construction of C–C, C–N, and C–S Bonds

Abstract: A general catalytic methodology for 1,2-RF/Y-difunctionalization of conjugated alkenes is reported. Diverse functionalized carbon radicals (RF•), which are generated through copper­(I)-initiated selective halogen atom abstraction via a tert-butyl hydroperoxide-induced α-amino radical process, undergo regiocontrolled addition to carbon–carbon double bonds. The newly formed carbon radicals combine with Y = CN, N3, or NCS from TMSY in a copper­(I)-promoted process to form a broad spectrum of α-cyano-, α-azido-, a… Show more

“…To verify the prediction in the map of radicals, the reported relevant reactions are collected in Figure (a) for comparison. The α-aminoalkyl radicals were found to abstract Cl, Br, and I atoms selectively. − The aryl radical, methyl radical, and ethyl radicals have been reported to abstract H atoms. ,,, These experimental atom transfer agents meet the specific HAT and XAT reaction criteria in Figures S13 and S14. Besides, our computations predict the selective abstraction of Br and I atoms from CH 2 Br 2 and CH 2 I 2 , respectively, by an α-aminoalkyl radical, which is verified by the experiments in Figure (b).…”

“…The • CHCl 2 radical that is formed in this way was shown by Doyle and co-workers to add regioselectively to the carbon−carbon double bond of styrene (see Scheme 1(b)). 25,26 This process is also suitable for halogen atom abstraction of methyl halides such as CHBr 3 , CHI 3 , or CHBrCl 2 to form diverse α-peroxy-β-substituted ethylbenzene products.…”

Precise Introduction of the −CH_nX_3–n (X = F, Cl, Br, I) Moiety to Target Molecules by a Radical Strategy: A Theoretical and Experimental Study

“…To verify the prediction in the map of radicals, the reported relevant reactions are collected in Figure (a) for comparison. The α-aminoalkyl radicals were found to abstract Cl, Br, and I atoms selectively. − The aryl radical, methyl radical, and ethyl radicals have been reported to abstract H atoms. ,,, These experimental atom transfer agents meet the specific HAT and XAT reaction criteria in Figures S13 and S14. Besides, our computations predict the selective abstraction of Br and I atoms from CH 2 Br 2 and CH 2 I 2 , respectively, by an α-aminoalkyl radical, which is verified by the experiments in Figure (b).…”

“…The • CHCl 2 radical that is formed in this way was shown by Doyle and co-workers to add regioselectively to the carbon−carbon double bond of styrene (see Scheme 1(b)). 25,26 This process is also suitable for halogen atom abstraction of methyl halides such as CHBr 3 , CHI 3 , or CHBrCl 2 to form diverse α-peroxy-β-substituted ethylbenzene products.…”

Precise Introduction of the −CH_nX_3–n (X = F, Cl, Br, I) Moiety to Target Molecules by a Radical Strategy: A Theoretical and Experimental Study

“…This blueprint for radical generation can be exploited in different settings, which include the coupling of alkyl iodides with N-nucleophiles to assemble S N 2-elusive C(sp 3 )–N bonds. 13 This reactivity paradigm is possible by merging XAT with copper catalysis so that an alkyl radical is generated and then captured by a copper-bound N fragment.…”

Merging Halogen-Atom Transfer (XAT) and Copper Catalysis for the Modular Suzuki–Miyaura-Type Cross-Coupling of Alkyl Iodides and Organoborons

“…Subsequently, Doyle and co-workers extended their aminoalkyl-radical-mediated XAT strategy to the diverse difunctionalization of conjugated alkenes (Scheme 6). 25 The combination of a copper catalyst, an amine, TBHP, organic halides and TMS-Y (Y = CN, N 3 or NCS) realized the carbocyanation, carboazidation and carbothiocyanation of styrene derivatives. A broad spectrum of -cyano-, -azido-and -thiocyano--substituted products with additional functionalities on R 2 were synthesized in good to high yields.…”

Application of α-Aminoalkyl Radicals as Reaction Activators