- Photocatalytic synthesis method of aryl thioether and derivatives thereof
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The invention belongs to the field of organic synthesis, and particularly relates to a photocatalytic synthesis method of aryl thioether and derivatives thereof. The synthesis method comprises the steps: dissolving an N-(sulfanyl) amide compound into a methyl aromatic compound under the protection of inert gas, and thus obtaining the aryl thioether compound under the action of light, a catalyst, aligand and alkali. According to the method, the coupling reaction of a C-S bond is completed through visible light induction by utilizing a light/Ni dual-catalytic system, so that the method has goodfunctional group compatibility, and the C-S bond compound can be selectively and efficiently constructed in one step. The method has the advantages of simple catalytic system, mild reaction conditions, economical, simple and easily available substrate, simple reaction operation and the like.
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Paragraph 0112; 0113; 0114; 0115
(2021/04/03)
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- CuI promoted sulfenylation of organozinc reagents with arylsulfonyl chlorides
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A CuI promoted sulfenylation of organozinc reagents with arylsulfonyl chlorides/PPh3 has been explored. This reaction proceeded smoothly through an alkyl/aryl radical (generated from organometallics) under mild conditions and produced the desired sulfide products in excellent yields.
- Fu, Ying,Su, Yuhu,Xu, Qin-Shan,Du, Zhengyin,Hu, Yulai,Wang, Ke-Hu,Huang, Danfeng
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p. 6018 - 6022
(2017/02/05)
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- Pd-PVP-Fe (palladium-poly(N-vinylpyrrolidone)-iron) catalyzed S-arylation of thiols with aryl halides in aqueous media
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Pd-PVP-Fe (palladium-poly(N-vinylpyrrolidone)-iron) nano catalyst catalyzes selective C–S cross-coupling (S-arylation) reactions of thiols with aryl halides and avoids the formation of S–S (disulfide) homocoupling byproducts. The reactions were carried out in aqueous media using only 0.23?mol% palladium with high selectivity and short reaction time. The effects of the Pd0and Fe0moieties on the C–S cross-coupling reaction mechanism, yield, and selectivity were investigated. The yield and selectivity can be controlled by adjusting the order of adding the reactants and catalyst into the reaction medium. The X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), electron backscatter diffraction (EBSD) microscopy, energy dispersive X-ray (EDX) spectroscopy, and thermal gravimetric analysis (TGA) tools were used to characterize the catalyst. The C–S cross-coupling reaction process could be repeated up to six times without losing effectiveness. The metals leaching of Pd-PVP-Fe nanocatalyst after reusing cycles were investigated by atomic absorption spectroscopic (AAS) and EDX spectroscopy. The nature of Pd metal after the first run of the C–S cross-coupling reaction was studied by UV–vis spectrophotometry. The morphology of bimetallic nanocatalyst after the first run of the C–S cross-coupling reaction was investigated by SEM, EBSD, and EDX microscopy.
- Ghaderi-Shekhi Abadi, Parvaneh,Rafiee, Ezzat,Joshaghani, Mohammad
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p. 162 - 170
(2016/07/25)
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- High activity and stability in the cross-coupling of aryl halides with disulfides over Cu-doped hierarchically porous zeolite ZSM-5
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A Cu-doped zeolite ZSM-5 (Cu-ZSM-5-M) with a micro-meso-macroporous structure was directly synthesized, and it exhibits excellent catalytic activity and good recyclability in the cross-coupling of aryl halides with diphenyl disulfides. This feature should be attributed to the structural characteristics of meso-macropores and homogeneous dispersion of active Cuδ+ (δ 2) species in Cu-ZSM-5-M.
- Fu, Wenqian,Liu, Taotao,Fang, Zhongxue,Ma, Yuli,Zheng, Xiang,Wang, Wenchang,Ni, Xiaojun,Hu, Maolin,Tang, Tiandi
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supporting information
p. 5890 - 5893
(2015/03/30)
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- Synthesis of phenylthiomethyl substituted furans by Lewis acid catalysed substitution
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Two routes to the differentially functionalised trisubstituted furan methyl 4-methyl-2-[(phenylthio)methyl]-3-furoate are presented. One is a direct palladium catalysed annulation which proceeds smoothly in the presence of a thioether and the other depends on a highly chemoselective displacement of a methoxy group by phenylthiotrimethylsilane. The scope and mechanism of the latter transformation was probed with simple model systems.
- Greeves,Torode
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p. 1109 - 1112
(2007/10/02)
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