1158986-97-0Relevant articles and documents
Electrochemical Thiolation and Borylation of Arylazo Sulfones with Thiols and B2pin2
Wang, Rongkang,Chen, Fangming,Jiang, Lvqi,Yi, Wenbin
, p. 1904 - 1911 (2021/02/12)
An efficient electrochemical synthesis approach of various unsymmetrical thioethers and arylboronates has been developed. Bench stable arylazo sulfones were used as radical precursors for carbon-heteroatom bond formation under electrochemical conditions. Moreover, the scalability of this approach was evaluated by performing the electrochemical thiolation and borylation of arylazo sulfones with thiols and B2pin2 on a gram scale. This protocol not only avoided the use of stoichiometric oxidants, metal catalysts, activating agents and even added bases, but also exhibited favorable functional group tolerance. (Figure presented.).
Method for preparing visible light promoted asymmetric sulfoxide compound
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Paragraph 0034; 0035, (2019/06/11)
The invention belongs to the field of organic synthetic chemistry, particularly relates to a preparation method of an asymmetric sulfoxide compound, and particularly discloses a method for synthesizing the asymmetric sulfoxide compound based on visible light catalysis. A compound shown in the formula I and a compound shown in the formula II are added to a reactor, a mixture of an organic solvent and water is added as a reaction solvent, the reactor is connected to air, under the irradiation of visible light, a reaction at a room temperature is performed for 16-40 hours; and after a detection reaction of a TLC thin layer chromatography plate is completed, pure water is added, then the extraction is performed, extract liquid is combined and dried, the extract liquid is concentrated and purified to obtain a compound shown in the formula III, and the compound is the asymmetric sulfoxide compound. The reaction conditions are mild, energy is clean, a strong oxidant is not needed, the safetyof the reaction is improved, the pollution caused by using a metal reagent is avoided, and the reaction cost is saved.
Difunctionalisation of arenes and heteroarenes by directed metallation and sulfoxide-magnesium exchange
Melzig, Laurin,Rauhut, Christian B.,Naredi-Rainer, Nikolaus,Knochel, Paul
supporting information; experimental part, p. 5362 - 5372 (2011/06/24)
The aryl sulfoxide moiety allows an expedient two-step difunctionalisation of readily available diaryl sulfoxides. Highly functionalised 1,2,4-trisubstituted arenes and difunctionalised heteroarenes (furans, thiophenes, benzofurans and pyridines) were prepared in a two-step sequence, triggered by an aryl sulfoxide group. In the first step, the sulfoxide moiety acts as a metallation-directing group, allowing smooth ortho-magnesiation with TMPMgCl.LiCl (TMP=tetramethylpiperidine). After a quenching reaction with an electrophile, the resulting sulfoxide is converted into a second magnesium reagent with iPrMgCl.LiCl (sulfoxide-magnesium exchange), which can be trapped with various electrophiles. Highly chemoselective TMPMgCl.LiCl and iPrMgCl.LiCl are compatible with a broad range of functional groups (e.g., F, Cl, CF 3, CN, CO2tBu, alkynyl, ethers, thioethers). Large-scale reactions (25-40 mmol) and the preparation of fully functionalised furans and thiophenes are also reported. Successful exchange: Highly functionalised 1,2,4-trisubstituted arenes and difunctionalised heteroarenes were prepared in a two-step sequence, triggered by an aryl sulfoxide group. The chemoselective reagents used, TMPMgCl.LiCl (TMP=tetramethylpiperidine) and iPrMgCl.LiCl, are compatible with a broad range of functional groups (see scheme; E=electrophile.)