26065-79-2Relevant academic research and scientific papers
Method for synthesizing thioester through cross-coupling of visible light-catalyzed sodium sulfinate and acyl chloride
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Paragraph 0080-0083, (2021/09/11)
The method takes sodium sulfinate and acyl chloride as raw materials and utilizes 2, 6 - dimethyl -1, 4 - dihydro -3, 5 - pyridine dicarboxylic acid diethyl ester and an organic alkali catalytic system to cross-couple sulfur radicals and acyl radicals und
Visible-Light-Promoted Thiyl Radical Generation from Sodium Sulfinates: A Radical-Radical Coupling to Thioesters
Bogonda, Ganganna,Patil, DIlip V.,Kim, Hun Young,Oh, Kyungsoo
supporting information, p. 3774 - 3779 (2019/05/24)
A convenient visible-light photoredox catalysis has been developed for the synthesis of thioesters from two readily available starting materials: acid chlorides and sodium sulfinates. The facile generation of acyl radical species under the visible light photoredox conditions allows the formation of thiyl radical species from sodium sulfinates via multiple single electron transfer reactions, where the final acyl radical-thiyl radical coupling has been accomplished. The direct radical-radical coupling strategy offers a mild and controlled photochemical approach to important synthetic building blocks such as thioesters.
Thioesters as Bifunctional Reagents for 2-Naphthylamine Sulfuracylation
Xiao, Fuhong,Yuan, Shanshan,Wang, Dahan,Liu, Saiwen,Huang, Huawen,Deng, Guo-Jun
supporting information, p. 3331 - 3336 (2019/06/13)
An efficient and convenient strategy for the preparation of diaryl sulfides via a Fe-promoted direct sulfuracylation of 2-naphthylamine using thioesters as bifunctional reagents is described. This synthetic strategy features high chemoselectivity, good substrate scope and functional group tolerance. (Figure presented.).
Kinetics and mechanism of the aminolysis of S-phenyl cyclopropanecarboxylates in acetonitrile
Oh, Hyuck Keun,Yun Lee, Jae,Lee, Hai Whang,Lee, Ikchoon
, p. 473 - 476 (2007/10/03)
The kinetics and mechanism of the aminolysis of S-phenyl cyclopropanecarboxylates [cyclo-C3H5C(=O)- SC6H4Z] with benzylamines (XC6H4CH2NH2) were investigated in aceton
