34566-08-0

Upstream product

• 100-42-5 styrene 
• 52260-00-1 2-thiophene sulfonyl hydrazine 
• 38945-01-6 sodium thiophene-2-sulphinate 
• 637-44-5 phenylpropyolic acid 
• 621-82-9 Cinnamic acid 
• 100-41-4 ethylbenzene 
• 140-10-3 (E)-3-phenylacrylic acid 
• 88022-34-8 4-chlorophenyl thiophene-2-sulfonate 
• 102-96-5 (2-nitroethenyl)benzene 
• 588-72-7 [(E)-2-bromoethenyl]benzene 

Relevant academic research and scientific papers

Silver-Catalyzed Denitrative Sulfonylation of β-Nitrostyrenes: A Convenient Approach to (E)-Vinyl Sulfones

The first utilization of β-nitrostyrenes (readily available by the Henry reaction) for a highly stereoselective, convenient, and catalytic synthesis of (E)-vinyl sulfones at room temperature was investigated. The protocol involves efficient silver-catalyz

Cu-catalyzed dehydrogenative olefinsulfonation of Alkyl arenes

A copper-catalyzed reaction protocol for the dehydrogenation of ethylbenzenes into styrene derivatives has been developed. This reaction procedure proceeded well under mild reaction conditions, providing a practical and efficient strategy for the rapid assembly of biologically and pharmaceutically significant molecules, such as vinyl sulfone. Simple alkyl arenes were functionalized via consecutive β-elimination in the presence of N-sulfonylbenzo[d]imidazole with broad substrate scope and good functional group tolerance.

Electrochemical sulfonylation of alkenes with sulfonyl hydrazides: A metal- And oxidant-free protocol for the synthesis of (: E)-vinyl sulfones in water

An efficient electrochemical transformation of a variety of alkenes and sulfonyl hydrazides into vinyl sulfones with a catalytic amount of tetrabutylammonium iodide in water is reported. The reaction proceeds smoothly to afford vinyl sulfones with good selectivities and yields at room temperature under air in an undivided cell. Cyclic voltammograms and control experiments have been performed to provide preliminary insight into the reaction mechanism. The key features of this reaction include using pure water as solvent, transition metal- and oxidant-free conditions, and being easily scaled up to gram-scale synthesis. This journal is

Electron Donor-Acceptor Complex Enabled Decarboxylative Sulfonylation of Cinnamic Acids under Visible-Light Irradiation

Visible-light-induced decarboxylative sulfonylation of cinnamic acids with aryl sulfonate phenol esters enabled by the electron donor-acceptor complex is developed. The method offers a mild and green approach for the synthesis of vinyl sulfones with excellent functional group compatibility under photocatalyst and oxidant-free conditions.

Metal-free catalyzed synthesis of the (E)-vinyl sulfones via aromatic olefins with arylsulfonyl hydrazides

Synthesis of vinyl sulfones from aromatic olefins and arylsulfonyl hydrazides via I2-TBHP catalyzed system under the N2 atmosphere is described. Owing to no use of metal, only producing N2 and water as the byproducts and d

Electrochemical Decarboxylative Sulfonylation of Cinnamic Acids with Aromatic Sulfonylhydrazides to Vinyl Sulfones

A stereoselective synthesis of (E)-vinyl sulfones has been developed via electrochemical oxidative N-S bond cleavage of aromatic sulfonylhydrazides, followed by cross-coupling reactions with cinnamic acids to form the C-S bond. The protocol proceeded smoo

Visible-Light-Enabled Decarboxylative Sulfonylation of Cinnamic Acids with Sulfonylhydrazides under Transition-Metal-Free Conditions

Decarboxylative cross-coupling reactions of cinnamic acids with sulfonylhydrazides were explored using oxygen as the sole terminal oxidant, realizing a conceptually novel technology for vinyl sulfone synthesis under the synergistic interactions of visible light irradiation, organic dye-type photocatalyst eosin Y, KI, and Cs2CO3 at room temperature.

Transition-metal-free synthesis of vinyl sulfones via tandem cross-decarboxylative/coupling reactions of sodium sulfinates and cinnamic acids

A transition-metal-free synthesis of vinyl sulfones, utilizing sodium sulfinates and cinnamic acids through tandem cross-decarboxylative/coupling reactions, has been developed. This transformation is simple, efficient and environmentally benign, with a wide range of substrate scope and exceptional functional group tolerance. This journal is the Partner Organisations 2014.

Chemoselective synthesis of unsymmetrical internal alkynes or vinyl sulfones via palladium-catalyzed cross-coupling reaction of sodium sulfinates with alkynes

A highly efficient and mild palladium-catalyzed cross-coupling of sodium sulfinates and alkynes for the selective synthesis of unsymmetrical internal alkynes and vinyl sulfones has been developed. This methodology has advantages of easily accessible starting materials, functional group tolerance and a wide range of substrates, which provides rapid access to alkynes and vinyl sulfones.

Copper-catalyzed aerobic oxidative N-S bond functionalization for C-S bond formation: Regio- and stereoselective synthesis of sulfones and thioethers

A regio- and stereoselective synthesis of sulfones and thioethers by means of CuI-catalyzed aerobic oxidative N-S bond cleavage of sulfonyl hydrazides, followed by cross-coupling reactions with alkenes and aromatic compounds to form the C-sp-2-S bond, is described herein. N2 and H2O are the byproducts of this transformation, thus offering an environmentally benign process with a wide range of potential applications in organic synthesis and medicinal chemistry. First cleave, then cross-couple: A direct Cu-catalyzed aerobic oxidative C-sp-2-H functionalization and C-S bond coupling reaction has been developed (see scheme). By slight modification of the additive, sulfonyl hydrazides could serve as sulfonation, sulfenation, or arylation reagents to undergo cross-coupling reactions with alkenes and (hetero)aromatic cycles, affording sulfones, thioethers, and biaryl compounds with high regio- and stereoselectivities (see scheme).