205642-01-9Relevant articles and documents
Electrocatalytic Dehydrogenative Cyclization of 2-Vinylanilides for the Synthesis of Indoles
Zheng, Yun-Tao,Song, Jinshuai,Xu, Hai-Chao
, p. 16001 - 16007 (2021)
Indole is prevalent in bioactive compounds and natural products. The development of efficient and sustainable methods to access this privileged structural scaffold has been a long-standing interest of synthetic chemists. Herein, we report an electrocataly
Iodine(III) Reagent-Mediated Intramolecular Amination of 2-Alkenylanilines to Prepare Indoles
Zhao, Chun-Yang,Li, Kun,Pang, Yu,Li, Jia-Qing,Liang, Cui,Su, Gui-Fa,Mo, Dong-Liang
supporting information, p. 1919 - 1925 (2018/03/28)
A variety of 3-substituted and 2,3-disubstituted indoles were synthesized efficiently in good yields through the intramolecular amination of 2-alkenylanilines promoted by readily available iodine(III) reagents in a short reaction time. Mechanistic studies showed that the reaction pathway went through a nitrenium ion and that 3-acetoxy indoline was the key intermediate in the indole formation. The indole product was easily prepared on a gram scale and amination also proceeded smoothly using catalytic 3,5-dimethylphenyl iodine in the presence of mCPBA. Furthermore, the indolo[3,2-a]carbazole scaffold was prepared in good yield in six steps from commercial ortho-iodoaniline. (Figure presented.).
Silver(I)-mediated C-H amination of 2-alkenylanilines: Unique solvent-dependent migratory aptitude
Youn, So Won,Ko, Tae Yun,Jang, Min Jung,Jang, Su San
supporting information, p. 227 - 234 (2015/01/30)
A highly effective silver(I)-mediated C-H amination of 2-alkenylanilines has been developed to afford a diverse range of substituted indoles. High functional group tolerance, broad substrate scope, simple/fast/high-yielding reaction, and recovery/reuse of the inexpensive silver oxidant are noteworthy. Furthermore, an uncommon migratory process of β-monosubstituted 2-alkenylanilines with solvent-dependence was demonstrated.