87740-10-1Relevant academic research and scientific papers
Copper nanoparticles supported on 2-methoxy-1-phenylethanone-functionalized MCM-41: An efficient and recyclable catalyst for one-pot three-component C–S coupling reaction of aryl halides with benzyl bromide and thiourea
Hajipour, Abdol R.,Fakhari, Farzaneh,Bidhendi, Gholamreza Nabi
, (2019/07/03)
An environmentally friendly copper-based catalyst supported on 2-methoxy-1-phenylethanone-functionalized MCM-41 was prepared and characterized by Fourier transform-infrared, transmission electron microscopy, field emission-scanning electron microscopy, X-ray diffraction and inductively coupled plasma techniques. The catalyst was applied for the one-pot three-component C–S coupling reactions of aryl halides with benzyl bromide and thiourea under aerobic conditions to afford the corresponding coupled products in good yields in water. The catalyst could be recovered and recycled five times. These results prove 2-methoxy-1-phenylethanone-functionalized MCM-41 supported Cu (II) complex was not leached during the reaction. Also it shows the correct heterogeneous nature of the catalyst.
Metal-free radical thiolations mediated by very weak bases
Koziakov, Denis,Majek, Michal,Jacobi Von Wangelin, Axel
supporting information, p. 11347 - 11352 (2016/12/16)
Aromatic thioethers and analogous heavier chalcogenides were prepared by reaction of arene-diazonium salts with disulfides in the presence of the cheap and weak base NaOAc. The mild and practical reaction conditions (equimolar reagents, DMSO, r.t., 8 h) tolerate various functional groups (e.g. Br, Cl, NO2, CO2R, OH, SCF3, furans). Mechanistic studies indicate the operation of a radical aromatic substitution mechanism via aryl, acetyloxyl, thiyl, and dimsyl radicals.
An aryl alkyl thioether compound and its synthetic method
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Paragraph 0150-0153, (2019/02/04)
The invention discloses a synthetic method of an aryl alkyl thioether compound shown as formula (II), and the synthetic method is as follows: at room temperature and in a water phase, using triazene and haloalkane as reaction raw materials, using Na2S2O3 as a vulcanization reagent for reaction under the promotion effect of a copper catalyst and a Lewis acid to obtain the aryl alkyl thioether compound. The advantages of the synthetic method are as follows: reaction is efficient and yield is high; the vulcanization reagent is cheap, easy to obtain, stable, and free of irritating smell; the reaction is carried out in the solvent green water, the reaction is free of addition of a phase transfer catalyst and a volatile organic solvent, and is environmentally friendly; the reaction is carried out at room temperature, is mild in condition; the catalyst copper sulfate used in the reaction is cheap and economic reaction; the reaction substrate is easy in preparation; after amplification, the reaction efficiency is higher.
Sulfide synthesis through copper-catalyzed C-S bond formation under biomolecule-compatible conditions
Zhang, Yonghong,Li, Yiming,Zhang, Xiaomei,Jiang, Xuefeng
, p. 941 - 944 (2015/01/09)
We report here an efficient and mild method for constructing C-S bonds. The reactions were carried out with Na2S2O3 as a sulfurating reagent, CuSO4 as a catalyst, and water as solvent without any surfactant. The products were achieved in moderate to excellent yields at room temperature under air. Notably, this reaction is compatible with various biomolecules including amino acids, oligosaccharides, nucleosides, proteins, and cell lysates. This journal is
A highly efficient Cu-catalyzed S-transfer reaction: From amine to sulfide
Li, Yiming,Pu, Jiahua,Jiang, Xuefeng
supporting information, p. 2692 - 2695 (2014/06/09)
A highly efficient Cu-catalyzed dual C-S bonds formation reaction, proceeding in alcohol and water under air, is reported, in which inodorous stable Na2S2O3 is used as a sulfurating reagent. This powerful strategy provides a practical and efficient approach to construct thioethers, using readily available aromatic amines and alkyl halides as starting materials. Sensitive and synthetic useful functional groups could be tolerated. Furthermore, pharmaceuticals, glucose, an amino acid, and a chiral ligand are successfully furnished by this late-stage sulfuration strategy.
Crystallography, quantitative structure-activity relationships, and molecular graphics in a comparative analysis of the inhibition of dihydrofolate reductase from chicken liver and Lactobacillus casei by 4,6-diamino-1,2-dihydro-2,2-dimethyl-1-(substituted-phenyl)-s-triazines
Hansch,Hathaway,Guo,et al.
, p. 129 - 143 (2007/10/02)
The inhibition of dihydrofolate reductase fron chicken liver and from Lactobacillus casei has been studied with 4,6-diamino-1,2-dihydro-2,2-dimethyl-1-(substituted-phenyl)-s-triazines. It was found that for the chicken enzyme, inhibitor potency for 101 triazines was correlated by a given equation. The mathematical models obtained from correlation analysis are compared with stereo color graphics models.
