17901-58-5Relevant articles and documents
Electrochemical behavior of indoles with methyl, benzyl, and dibenzyl-4-yl groups
Buder,Schwitzgebel,Samsoniya,Gogritchiani,Chikvaidze
, p. 1121 - 1129 (2005)
2,3-Dimethylindole, N-benzyl-2-methylindole, and 2-(dibenzyl-4-yl)-7- benzylindole (DBBI) under conditions for potentiodynamic electrochemical polymerization (0.3-0.9 V vs. Ag/Ag+ in acetonitrile) underwent dimerization reactions as was shown b
Cine-Silylative Ring-Opening of α-Methyl Azacycles Enabled by the Silylium-Induced C-N Bond Cleavage
Zhang, Jianbo,Chang, Sukbok
supporting information, p. 12585 - 12590 (2020/08/21)
Described herein is the development of a borane-catalyzed cine-silylative ring-opening of α-methyl azacycles. This transformation involves four-step cascade processes: (i) exo-dehydrogenation of alicyclic amine, (ii) hydrosilylation of the resultant enamine, (iii) silylium-induced cis-β-amino elimination to open the ring skeleton, and (iv) hydrosilylation of the terminal olefin. The present borane catalysis also works efficiently for the C-N bond cleavage of acyclic tertiary amines. On the basis of experimental and computational studies, the silicon atom was elucidated to play a pivotal role in the β-amino elimination step.
Exploration and Development of a C-H-Activated Route to Access the [1,2]Dithiolo[4,3- b ]indole-3(4 H)-thione Core and Related Derivatives
Asquith, Christopher R. M.,Konstantinova, Lidia S.,Tizzard, Graham J.,Laitinen, Tuomo,Coles, Simon J.,Rakitin, Oleg A.,Hilton, Stephen T.
, p. 156 - 160 (2019/01/14)
A robust procedure for the production of [1,2]dithiolo[4,3- b ]indole-3(4 H)-thione analogues using a DABCO/S 2 Cl 2 complex as a sulfur source via a C-H activated approach.