19474-82-9

Upstream product

• 107771-85-7 m-tolyl-o-tolyl sulfide 
• 2417-95-0 p-tolyllithium 
• 1858-86-2 Ethyl p-toluenesulfinate 
• 591-17-3 meta-bromotoluene 
• 107770-92-3 (3?methylphenyl)(4?methylphenyl) sulfide 
• 5720-05-8 4-methylphenylboronic acid 
• 106-45-6 para-thiocresol 

Relevant academic research and scientific papers

Palladium-Catalyzed Sulfinylation of Aryl- And Alkenylborons with Sulfinate Esters

An efficient, direct sulfinylation of organoborons catalyzed by palladium is disclosed. Treatment of organoborons and sulfinate esters in the presence of a palladium precatalyst provided a broad range of sulfoxides. Various organosulfur compounds having oxidizable functional groups were successfully prepared through the sulfoxide synthesis.

Vanadium-catalyzed Selective Oxidation of Sulfides to Sulfoxides and Sulfones with H2O2

Abstract: A direct selective approach to the oxidation of sulfides to sulfoxides andsulfones with H2O2 in moderate togood yields is developed. The reaction proceeds in the presence of 2 mol % ofVO(acac)2 at room temperature. All sulfoxides andsulfones were detected by gas chromatography, and the molecular structures of2-methylbenzyl 4-methylphenyl sulfone, 4-methylbenzyl 4-methylphenyl sulfone,2-bromobenzyl 4-methylphenyl sulfone, and 4-tert-butylbenzyl benzyl sulfone were determined by singlecrystal X-ray crystallography.

Catalyst-free visible-light-initiated oxidative coupling of aryldiazo sulfones with thiols leading to unsymmetrical sulfoxides in air

A facile and efficient visible-light-driven method has been developed to construct sulfoxides via oxidative coupling of aryldiazo sulfones with thiols using the O2 in air as the oxidant. This reaction could be performed at room temperature under catalyst- and additive-free conditions. The present methodology offers a mild and environmentally benign approach to obtain a library of sulfoxides in good yields with favorable functional group tolerance.

Method for preparing visible light promoted asymmetric sulfoxide compound

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.

Selective aerobic oxidation of sulfides to sulfoxides catalyzed by coenzyme NAD+ models

Coenzyme NAD+ models can be applied in the photooxygenation of sulfides to sulfoxides as organocatalysts at room temperature. A series of sulfoxides are synthesized easily with this protocol and the possible mechanism is discussed. This procedure provides a reliable approach to the clean production of useful sulfoxides in synthetic chemistry.

Reactions of chlorine dioxide with organic compounds: Selective oxidation of sulfides to sulfoxides by chlorine dioxide

A novel method for the selective oxidation of various types of sulfides to sulfoxides using chlorine dioxide as the oxidant is proposed.

REACTION OF DIMETHYL SULFITE WITH PHENYLLITHIUM. FORMATION OF BIPHENYL AND DIPHENYL SULFIDE VIA SULFURANE

Dimethyl sulfite reacted an excess of phenyllithium yielding biphenyl and diphenyl sulfide in good yield.Other dialkyl sulfites also reacted giving identical yields of biphenyl and diphenyl sulfide irrespective of the structure of the aryl groups, indicating that dialkyl sulfites can be used for the reaction with aryllithiums in place of diaryl sulfoxides.The mechanism of the reaction of diaryl sulfoxides with aryllithium is discussed on the the basis of the isomer distribution of bitolyls, the effect of additives, and the ratio of the benzyne and sulfonium salt pathways.Sulfurane 1 is formed in an initial stage of the reaction of diaryl sulfoxide with aryllithium followed by its competitive collapse by way of benzyne and sulfonium salt pathways.