Litcius/Paper detail

Transition-metal-free allylation of 2-azaallyls with allyl ethers through polar and radical mechanisms

Guogang Deng, Shengzu Duan, Jing Wang, Zhuo Chen, Tongqi Liu, Wen Chen, Hongbin Zhang, Xiaodong Yang, Patrick J. Walsh

2021Nature Communications32 citationsDOIOpen Access PDF

Abstract

Abstract Allylation of nucleophiles with highly reactive electrophiles like allyl halides can be conducted without metal catalysts. Less reactive electrophiles, such as allyl esters and carbonates, usually require a transition metal catalyst to facilitate the allylation. Herein, we report a unique transition-metal-free allylation strategy with allyl ether electrophiles. Reaction of a host of allyl ethers with 2-azaallyl anions delivers valuable homoallylic amine derivatives (up to 92%), which are significant in the pharmaceutical industry. Interestingly, no deprotonative isomerization or cyclization of the products were observed. The potential synthetic utility and ease of operation is demonstrated by a gram scale telescoped preparation of a homoallylic amine. In addition, mechanistic studies provide insight into these C(sp 3 )–C(sp 3 ) bond-forming reactions.

Topics & Concepts

ElectrophileChemistryNucleophileIsomerizationCatalysisTransition metalAmine gas treatingEtherCombinatorial chemistryOrganic chemistryMedicinal chemistryCatalytic C–H Functionalization MethodsSulfur-Based Synthesis TechniquesRadical Photochemical Reactions
Transition-metal-free allylation of 2-azaallyls with allyl ethers through polar and radical mechanisms | Litcius