Litcius/Paper detail

Ritter-type amination of C(sp3)-H bonds enabled by electrochemistry with SO42−

Ling Zhang, Youtian Fu, Yi Shen, Chengyu Liu, Maolin Sun, Ruihua Cheng, Weiping Zhu, Xuhong Qian, Yueyue Ma, Jinxing Ye

2022Nature Communications65 citationsDOIOpen Access PDF

Abstract

Abstract By merging electricity with sulfate, the Ritter-type amination of C(sp 3 )-H bonds is developed in an undivided cell under room temperature. This method features broad substrate generality (71 examples, up to 93% yields), high functional-group compatibility, facile scalability, excellent site-selectivity and mild conditions. Common alkanes and electron-deficient alkylbenzenes are viable substrates. It also provides a straightforward protocol for incorporating C-deuterated acetylamino group into C(sp 3 )-H sites. Application in the synthesis or modification of pharmaceuticals or their derivatives and gram-scale synthesis demonstrate the practicability of this method. Mechanistic experiments show that sulfate radical anion, formed by electrolysis of sulfate, served as hydrogen atom transfer agent to provide alkyl radical intermediate. This method paves a convenient and flexible pathway for realizing various synthetically useful transformations of C(sp 3 )-H bonds mediated by sulfate radical anion generated via electrochemistry.

Topics & Concepts

AminationChemistryCombinatorial chemistryElectrochemistryAcetanilideFunctional groupSulfateElectrolysisHydrogen bondAmine gas treatingOrganic chemistryMoleculeCatalysisPolymerElectrodeElectrolytePhysical chemistryRadical Photochemical ReactionsSulfur-Based Synthesis TechniquesSynthesis and Catalytic Reactions