13702-03-9

Upstream product

• 108-98-5 thiophenol 
• 1794-48-5 1-bromo-3-phenylprop-2-yne 
• 3111-52-2 potassium thiophenolate 
• 82490-61-7 3-phenyl-2-propyn-1-yl methanesulfonate 
• 4551-15-9 phenylthiotrimethylsilane 
• 37559-18-5 3-phenylprop-2-ynyl acetate 
• 591-50-4 iodobenzene 
• 5651-88-7 phenyl propargyl sulfide 
• 3437-95-4 2-Iodothiophene 
• 906066-08-8 trimethyl(3-phenylprop-2-ynyloxy)silane 
• 536-74-3 phenylacetylene 
• 21541-60-6 3-phenylprop-2-ynyl 4-methylbenzenesulfonate 
• 420121-38-6 methyl (3-phenylprop-2-yn-1-yl) carbonate 
• 930-69-8 sodium thiophenolate 

Downstream Products

• 5848-60-2 cinnamyl(phenyl)sulfide 
• 194856-70-7 3-phenyl-2-propynyl phenyl sulfoxide 
• 22191-61-3 N,N-dimethyl-3-phenylthiopropionamide 
• 177615-87-1 [Pd-trans-C(Ph)=C(Cl)CH2SPh(μ-Cl)]2 
• 1391759-27-5 3-phenyl-2-(phenylthio)penta-3,4-dienoate 
• 177615-87-1 [PdCl(S(C₆H₅)CH₂C(Cl)C(C₆H₅))]2 
• 2579-22-8 Phenylpropargyl aldehyde 
• 104-55-2 3-phenyl-propenal 
• 194856-85-4 2-diethylamino-3-phenyl-1-propenyl phenyl sulfone 
• 194856-77-4 1-phenyl-3-phenyl sulfinyl-2-propanone 
• 27839-94-7 1-phenyl-3-(phenylsulfonyl)propan-2-one 

Relevant academic research and scientific papers

Dimethylisosorbide (DMI) as a Bio-Derived Solvent for Pd-Catalyzed Cross-Coupling Reactions

Palladium-catalyzed bond-forming reactions, such as the ?-Suzuki-Miyaura and Mizoroki-Heck reactions, are some of the most broadly utilized reactions within the chemical industry. These reactions frequently employ hazardous solvents; however, to adhere to increasing sustainability pressures and restrictions regarding the use of such solvents, alternatives are highly sought after. Here we demonstrate the utility of dimethyl isosorbide (DMI) as a bio-derived solvent in several benchmark Pd-catalyzed reactions: Suzuki-Miyaura (13 examples, 62-100% yield), Mizoroki-Heck (13 examples, 47-91% yield), and Sonogashira (12 examples, 65-98% yield).

Aryl sulfoxide, thioether compound, synthesis method and application thereof

The invention discloses a method for selective synthesis of an aryl sulfoxide compound (III) and an aryl thioether compound (IV). According to the invention, in a reactive solvent, an aryl high iodinesalt is adopted as the reaction raw material, aryl/alkyl thiosulfate is taken as the vulcanizing reagent, under the catalysis of visible light and a photosensitive reagent, and under the action of lewis acid and alkali, when the reaction atmosphere is nitrogen, the thioether compound (IV) can be generated, and when the reaction atmosphere is air, the sulfoxide compound (III) can be generated. Thesynthesis method provided by the invention has the advantages of easily available and cheap raw materials, simple reaction operation, mild and environment-friendly reaction conditions, high yield, and excellent functional group tolerance. The invention also discloses the new aryl sulfoxide compound (III) and aryl thioether compound (IV), also successfully realizes later modification of drugs andsugar, and realizes the formal synthesis of some drugs, and provides an efficient method for selective construction of thioether and sulfoxide compounds.

Controllable Sulfoxidation and Sulfenylation with Organic Thiosulfate Salts via Dual Electron- and Energy-Transfer Photocatalysis

Sulfoxides and sulfides are two important functional groups in organic molecules, containing different valence states of sulfur. Both sulfoxidation and sulfenylation with common sulfurating reagents were successfully tuned via a facile variation of the atmosphere under photocatalyzed conditions. The sulfoxidation and sulfenylation transformations involved tandem electron-/energy-transfer and single-electron-transfer processes, respectively. Late-stage sulfoxidation for pharmaceuticals and sugar derivatives was established to be highly compatible. Divergent formal syntheses of sulfoxide/sulfide-containing marketed pharmaceuticals were switchably implemented. Gram-scale operations further demonstrated the practicability of the protocol.

Metal-Free Electrophilic Phosphination/Cyclization of Alkynes

A metal-free electrophilic phosphination reaction has been developed. Electrophilic phosphorus species generated in situ from secondary phosphine oxides and Tf2O smoothly couple with alkynes possessing pendant nucleophiles to afford the corresponding phosphinated cyclization products in good yield. Preliminary NMR studies show that phosphirenium species may be involved as intermediates of the cyclization reactions.

Synthesis of thioethers by ini3-catalyzed substitution of siloxy group using thiosilanes

The substitution of a siloxy group using thiosilanes smoothly occurred in the presence of InI3 catalyst to yield the corresponding thioethers. InI3was a specifically effective catalyst in this reaction system, while other typical Lew

Synthesis of a wide range of thioethers by indium triiodide catalyzed direct coupling between alkyl acetates and thiosilanes

An indium triiodide-catalyzed substitution of the acetoxy group in alkyl acetates with thiosilanes provides access to a variety of thioethers. The method is efficient for a wide scope of acetates such as primary alkyl, secondary alkyl, tertiary alkyl, allylic, benzylic, and propargylic acetates.

Catalytic activation of diazo compounds using electron-rich, defined iron complexes for carbene-transfer reactions

Carbene transfer: The electron-rich iron complex Bu4N[Fe(CO) 3(NO)] efficiently catalyzes different carbene-transfer reactions. Various diazo compounds can be used. The high stability of the employed iron complexes is demonstrated by the generation of the diazo reagent in situ and a sequential iron-catalyzed allylic sulfenylation/Doyle-Kirmse reaction. Copyright

Reactions of unsaturated azides; part 17:1 An efficient strategy for the synthesis of small-ring heterocycles via isomerization of 2-halo-2H-azirines

New acceptor-substituted allenyl halides were synthesized. The addition of hydrazoic acid (HN3) to these allenyl halides led to the formation of new 1-azido-2-haloethene derivatives. The photolysis of the latter compounds afforded the correspon

Amination and [2,3]-sigmatropic rearrangement of propargylic sulfides using a ketomalonate-derived oxaziridine: synthesis of N-allenylsulfenimides.

Amination of propargylic sulfides with a ketomalonate-derived oxaziridine under metal free conditions gives N-Boc-N-allenylsulfenimides via [2,3]-sigmatropic rearrangement.

Ruthenium-catalyzed S-propargylation of thiols enables the rapid synthesis of propargylic sulfides

A new and highly efficient catalytic system based on CpRuClL2 is proposed for the S-propargylation of thiols by propargylic carbonates under neutral conditions, in which specific requirements inherent to the different reactivities of aliphatic and aromatic thiols are achieved by tuning both the nature of the ancillary ligand L and the experimental conditions. Copyright