1210054-34-4Relevant articles and documents
Combined experimental/theoretical study on d-glucosamine promoted regioselective sulfenylation of indoles catalyzed by copper
Ge, Xin,Sun, Fengli,Liu, Xuemin,Chen, Xinzhi,Qian, Chao,Zhou, Shaodong
, p. 13175 - 13180 (2017)
A combined experimental/theoretical investigation on the d-glucosamine promoted sulfenylation of indoles at the C3 position with sodium sulfinates catalyzed by copper is presented. The C3-sulfenylation of indoles shows good functional-group tolerance and yields. The 3-I-indole was identified as a crucial intermediate in the catalytic cycle. The catalytic role of [Cu(DMSO)2]2+ was addressed using quantum chemical calculations. In the interaction of [Cu(DMSO)2]2+ with indole, the [Cu(DMSO)2]2+ complex abstracts a hydrogen from the C3 of indole. The electronic origin for selective C-H bond activation of indole was revealed.
Synergistic Effect of Squaric Acid in Bromine-Catalyzed Deoxygenation of Sulfonyl Derivatives: Mechanistic Investigations and Synthetic Applications in Electrophilic (Fluoroalkyl)sulfenylation
Xiang, Haonan,Liu, Jie,Wang, Jieping,Jiang, Lvqi,Yi, Wenbin
supporting information, p. 181 - 185 (2021/12/17)
A method for electrophilic (fluoroalkyl)sulfenylation of nucleophiles by collaborative CTAB- and squaric acid-promoted deoxygenation of sulfonyl derivatives is reported. Mechanistic studies indicate that squaric acid dramatically decreased the energy barr
Iodine/Manganese Catalyzed Sulfenylation of Indole via Dehydrogenative Oxidative Coupling in Anisole
Li, Weihe,Wang, Hao,Liu, Shengping,Feng, Hua,Benassi, Enrico,Qian, Bo
, p. 2666 - 2671 (2020/05/25)
This protocol describes an iodine/manganese catalytic system for dehydrogenative oxidative coupling reaction of indoles with thiols in anisole. Particularly, the dual roles of anisole have been first demonstrated as a solvent and as a promoter via the formation of an oxonium ion intermediate to accelerate the generation of products. A series of sulfenylindoles are readily constructed under aerobic mild reaction conditions. In addition, the achievement for preparing anticancer and anti-AIDS drugs testifies the practicability of this approach. The mechanism studies disclose probable alternative pathways and a single-electron transfer process are involved in this transformation. (Figure presented.).
NH4I/1,10-phenanthroline catalyzed direct sulfenylation of N-heteroarenes with ethyl arylsulfinates
Chen, Lingjuan,Zhang, Jun,Wei, Yueting,Yang, Zhen,Liu, Ping,Zhang, Jie,Dai, Bin
, (2019/10/14)
An efficient synthesis of N-heterocyclic aryl sulfides via NH4I/1,10-phenanthroline-catalyzed direct sulfenylation reactions was reported. In this reaction, heteroarenes such as indoles, and pyrroles serve as nucleophiles by installing a arylthio group at the C3 and C2 position of heterocycles, respectively. With readily accessible and free of unpleasant odor ethyl arylsulfinates as sulfur reagents, the metal-free-catalyzed direct sulfenylation of N-heteroarenes has been developed. 3-Arylthio-indoles and 2-arylthio-pyrroles derivatives were obtained in moderate to excellent yields, even on gram scale. The reaction was general for a broad scope of substrates and demonstrated good tolerance to a variety of functional groups.
