51787-20-3Relevant academic research and scientific papers
Nitrosoarene-catalyzed regioselective aromatic C-H sulfinylation with thiols under aerobic conditions
Chatterjee, Indranil,Patel, Sandeep,Pradhan, Suman
supporting information, p. 5054 - 5057 (2020/05/18)
Aromatic amines and (hetero)arenes, such as indoles and pyrroles, are regioselectively sulfinylated under mild aerobic conditions using nitrosoarenes as a redox-catalyst. The nitrosoarene is involved in the electron transfer process with arenes to generate a crucial arene radical cation intermediate for C-H sulfinylation. The present methodology requires no directing group, can be scaled up easily and is applicable for the late-stage functionalization of drug molecules and natural products with high regioselectivity.
Dramatic influence of ionic liquid and ultrasound irradiation on the electrophilic sulfinylation of aromatic compounds by sulfinic esters
Nguyen, Ngoc-Lan Thi,Vo, Hong-Thom,Duus, Fritz,Luu, Thi Xuan Thi
, (2017/09/25)
The sulfinylation reaction of aromatic and hetero-aromatic compounds with sulfinic esters as electrophiles has been investigated in different ionic liquids and by means of different Lewis acid salts in order to get moderate to good yields of asymmetrical
Palladium catalyzed diaryl sulfoxide generation from aryl benzyl sulfoxides and aryl chlorides
Jia, Tiezheng,Zhang, Mengnan,Sagamanova, Irina K.,Wang, Carol Y.,Walsh, Patrick J.
supporting information, p. 1168 - 1171 (2015/03/14)
Diaryl sulfoxides are synthesized from aryl benzyl sulfoxides and aryl chlorides via three sequential catalytic cycles all promoted by a NiXantPhos-based palladium catalyst. The key step is S-arylation of a sulfenate anion. An air- and moisture-stable precatalyst derived from NiXantPhos efficiently facilitates the transformation. Various functional groups, including those with acidic protons, were tolerated. This method can also be extended to methyl and dibenzyl sulfoxides substrates.
Diaryl sulfoxides from aryl benzyl sulfoxides: A single palladium-catalyzed triple relay process
Jia, Tiezheng,Bellomo, Ana,Montel, Sonia,Zhang, Mengnan,El Baina, Kawtar,Zheng, Bing,Walsh, Patrick J.
supporting information, p. 260 - 264 (2014/01/17)
A novel approach to produce diaryl sulfoxides from aryl benzyl sulfoxides is reported. Optimization of the reaction conditions was performed using high-throughput experimentation techniques. The [Pd(dba)2]/NiXantPhos catalyst system successfully promotes a triple relay process involving sulfoxide α-arylation, C-S bond cleavage, and C-S bond formation. The byproduct benzophenone is formed by an additional palladium-catalyzed process. It is noteworthy that palladium-catalyzed benzylative C-S bond cleavage of sulfoxides is unprecedented. A wide range of aryl benzyl sulfoxides, as well as alkyl benzyl sulfoxides with various (hetero)aryl bromides were employed in the triple relay process in good to excellent yields (85-99 %). Moreover, aryl methyl sulfoxides, dibenzyl sulfoxides, and dimethylsulfoxide could be utilized to generate diaryl sulfoxides involving multiple catalytic cycles by a single catalyst. Three for one: The [Pd(dba)2]/NiXantPhos (dba=dibenzylideneacetone) catalyst system successfully promotes a triple relay process involving sulfoxide α-arylation, C-S bond cleavage, and C-S bond formation to give diaryl sulfoxides (see picture). Aryl benzyl sulfoxides, as well as alkyl benzyl sulfoxides reacted with various (hetero)aryl bromides. Copyright
