نتایج جستجو برای: indoles

تعداد نتایج: 4135  

Journal: :Chemical communications 2012
Bo Jiang Mian-Shuai Yi Feng Shi Shu-Jiang Tu Suresh Pindi Patrick McDowell Guigen Li

A novel multi-component reaction for the synthesis of polyfunctionalized indoles and bis-indoles has been established. The reaction pathways were controlled by varying enamines with different substitution patterns to give polyfunctionalized indoles and bis-indoles selectively. The reaction proceeds at a fast speed within 15-30 min with water as the major byproduct, which makes work-up convenient.

Journal: :Chemical communications 2014
Jiang-Kai Qiu Wen-Juan Hao De-Cai Wang Ping Wei Jun Sun Bo Jiang Shu-Jiang Tu

A metal-free synthesis of bifunctionalized indole derivatives was developed through a novel TBHP/TBAI-mediated oxidative coupling of C2,C3-unsubstituted indoles with arylsulfonyl hydrazide. Under the same conditions C3-methyl substituted indoles underwent a diazotization process, affording 2-sulfonyldiazenyl-1H-indoles. The former reaction simultaneously established C-S and C-N bonds through se...

2014
Mujahid Mohammed Sasikala Ch Ramana V. Ch

Rubrivivax benzoatilyticus JA2 and other anoxygenic photosynthetic bacteria produce indole derivatives when exposed to aniline, a xenobiotic compound. Though this phenomenon has been reported previously, the role of aniline in the production of indoles is still a biochemical riddle. The present study aims at understanding the specific role of aniline (as precursor or stimulator) in the producti...

Journal: :Organic & biomolecular chemistry 2016
Sindhura Badigenchala Venkatachalam Rajeshkumar Govindasamy Sekar

A novel and metal-free I2-mediated intramolecular C2 amidation of indoles under mild reaction conditions is developed. This methodology affords various indole fused tetracyclic compounds, such as benzo[4,5]imidazo[1,2-a]indoles by intramolecular C2 amidation of N-aryl substituted indoles. This C2 sulfonamidative cyclization also offers convenient access to indolo[2,3-b]indoles and dihydroindolo...

Journal: :Organic & biomolecular chemistry 2018
Nuannuan Ma Peihe Li Zheng Wang Qipu Dai Changwen Hu

An efficient Pd-catalyzed decarboxylation/cyclization of aroyloxycarbamates to realize substituted indoles has been disclosed. Terminal alkynes as the coupling partners lead to site specific 2-substituted indoles through two pathways, while internal alkynes with aroyloxycarbamates can be transformed to 2,3-disubstituted indoles directly. This protocol is further demonstrated by the efficient sy...

Journal: :The Journal of organic chemistry 2006
Shengming Ma Shichao Yu Zhihua Peng Hao Guo

New functionalizations of indoles via palladium-catalyzed reaction of indoles and 2-acetoxymethyl-substituted electron-deficient alkenes are reported. It was found that for N-protected indoles the reaction proceeded smoothly in the presence of 5 mol % of Pd(acac)2 and 10 mol % of PPh3 at 80 degrees C in HOAc, while for N-unprotected indoles, the reaction was carried out by using 5 mol % of Pd(d...

Journal: :Angewandte Chemie 2011
You-Cai Xiao Chao Wang Yuan Yao Jian Sun Ying-Chun Chen

While a variety of protocols, including traditional enzymatic or non-enzymatic kinetic resolutions, and organicmoleculeor metal-mediated asymmetric transformations have been described, the direct asymmetric reduction of prochiral indole precursors would be one of the most straightforward ways to make chiral indolines. Thus, a few transition metal/chiral phosphine complexes, including Rh, Ru, an...

Journal: :Organic & biomolecular chemistry 2015
Shuai-Shuai Li Hui Lin Xiao-Mei Zhang Lin Dong

In this paper, a simple and highly efficient ruthenium-catalyzed direct C3 alkylation of indoles with various α,β-unsaturated ketones without chelation assistance has been developed. This novel C-H activation methodology exhibits a broad substrate scope such as different substituted indoles, pyrroles, and other azoles. Further synthetic applications of the alkylation products can lead to more a...

2015
Kun Xu Thomas Gilles Bernhard Breit

The asymmetric synthesis of N-allylic indoles is important for natural product synthesis and pharmaceutical research. The regio- and enantioselective N-allylation of indoles is a true challenge due to the favourable C3-allylation. We develop here a new strategy to the asymmetric synthesis of N-allylic indoles via rhodium-catalysed N-selective coupling of aryl hydrazines with allenes followed by...

Journal: :Organic & biomolecular chemistry 2013
Mirim Kim Jihye Park Satyasheel Sharma Sangil Han Sang Hoon Han Jong Hwan Kwak Young Hoon Jung In Su Kim

Tandem rhodium-catalyzed oxidative allylation and annulation of acetanilides with allyl acetate to afford the corresponding indoles are described. In addition, the site-selective C2 allylation, crotylation and prenylation of indoles using allylic acetates under rhodium catalysis are reported.

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