- Synthesis of Aryl Methyl Sulfides from Arysulfonyl Chlorides with Dimethyl Carbonate as the Solvent and C1 Source
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A new procedure for the synthesis of aryl methyl sulfides from dimethyl carbonate (DMC) and arylsulfonyl chlorides has been achieved. In this strategy, DMC plays a dual role as both, C1 building block and green solvent. Arylsulfonyl chlorides served as the sulfur precursors, and a variety of aryl methyl sulfides were obtained in moderate to excellent yields with good functional group tolerance. Additionally, alkylsulfonyl chloride and dibenzyl carbonate are proven to be suitable substrates as well.
- Miao, Ren-Guan,Qi, Xinxin,Wu, Xiao-Feng
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supporting information
p. 5219 - 5221
(2021/10/19)
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- t-BuOK-promoted methylthiolation of aryl fluorides with dimethyldisulfide under transition-metal-free and mild conditions
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In the presence of potassium tert-butoxide (t-BuOK), the cross-coupling reaction between aryl fluorides and dimethyldisulfide was developed. A series of aryl methyl sulfides were obtained in moderate to good yields under transition-metal-free and mild conditions.
- Huang, Dayun,Wu, Xiangmei
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- Copper-Catalyzed Methylthiolation of Aryl Iodides and Bromides with Dimethyl Disulfide in Water
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An efficient route to aryl methyl sulfides through the copper-catalyzed coupling reaction of aryl iodides or bromides with dimethyl disulfide in water is described. Electron-donating and electron-withdrawing functional groups in the substrates were tolerated, and the corresponding products were obtained in moderate to good yields.
- Wang, Ying-Yu,Wu, Xiang-Mei,Yang, Ming-Hua
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supporting information
(2020/07/20)
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- Reduction of CO2 with NaBH4/I2 for the Conversion of Thiophenols to Aryl Methyl Sulfides
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We report a tandem reaction to realize reduction of carbon dioxide with thiophenols to generate aryl methyl sulfides under the NaBH4/I2 system with 18-crown-6 as the solvent. Thiophenols bearing electron-donating and electron-withdrawing groups are feasible in this reaction. Controlled experiment results indicate that 18-crown-6 plays a critical role in six-electron reduction of carbon dioxide.
- Zhang, Bo,Fan, Zhengning,Guo, Zhiqiang,Xi, Chanjuan
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p. 8661 - 8667
(2019/07/03)
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- Metal-free S-methylation of diaryl disulfides with di-tert-butyl peroxide
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An efficient approach for S-methylation of diaryl disulfides with di-tert-butyl peroxide under metal-free and neutral conditions was established. The present protocol shows good functional group tolerance to afford aryl methyl sulfides in moderate to good
- Wu, Xiangmei,Wang, Yan
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supporting information
p. 1240 - 1243
(2018/03/08)
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- Metal-Free, DTBP-Mediated Methylthiolation of Arylboronic Acids with Dimethyldisulfide
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An efficient method for the C-S bond formation via the coupling reaction of arylboronic acids with dimethyldisulfide has been developed under the metal-free conditions. This novel protocol provides an attractive route for the synthesis of aryl methyl sulf
- Wu, Xiang-Mei,Lou, Jia-Ming,Yan, Guo-Bing
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supporting information
p. 2269 - 2273
(2016/10/30)
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- Development of the large-scale preparation of 2-(Methanesulfonyl) benzenesulfonyl chloride
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A practical and scalable process is described for the preparation of 2-(methansulfonyl)benzenesulfonyl chloride, a key building block used in the synthesis of several drug candidates. The material is prepared by an efficient four-step sequence from inexpe
- Meckler, Harold,Herr, R. Jason
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experimental part
p. 550 - 555
(2012/08/07)
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- Mild and efficient deoxygenation of sulfoxides to sulfides using HFCL 4/KBH4 system
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HfCl4/KBH4 was found to be a facile, efficient, convenient, and chemoselective system for the deoxygenation of dialkyl, diaryl, and aryl alkyl sulfoxides, especially for the reduction of dibenzyl sulfoxide to the corresponding sulfides under mild conditions. In addition, the HfCl 4/KBH4 system could be used in reduction of some other sulfur-bearing substrates to the corresponding sulfides, such as 2,2'-dibenzothiazolyl disulfide, but this reducing system could not reduce sulfolane, diphenyl sulfone, p-toluenesulfonic acid, and p-toluenesulfonyl chloride to their corresponding thiophenols. Copyright
- Zhang, Jianghua,Gao, Xinqin,Zhang, Chengyi,Zhang, Cheng,Luan, Jiming,Zhao, Defeng
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experimental part
p. 1794 - 1801
(2010/07/14)
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- Sulfur containing compounds
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This invention is directed to novel and known stufur containing compounds and pharmaceutically acceptable salts thereof that have utility as antifungals and as antiproliferative agents against mammalian cells, in particular cancer cells and most particularly leukemia-derived cells. The invention provides a method for synthesizing certain of the sulfur containing compounds that is more efficient than previously known methods.
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Page/Page column 25
(2010/11/30)
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- New and more potent antifungal bisulfides
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From a design principle described in an earlier paper, a new series of substituted aryl methyl disulfides have been prepared and tested against Aspergillus niger and Aspergillus flavus. Methyl p-nitrophenyl disulfide is more potent (by an order of magnitude) than the fungitoxic natural product (CH3SCH2S)2. With the present rationale in hand, one can anticipate which Polycarpamine is an effective antifungal agent. CSIRO 2000.
- Baerlocher, Felix Jakob,Baerlocher, Mark Otto,Langler, Richard Francis,MacQuarrie, Stephanie Lee,Marchand, Maurice Emile
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- Alkyl- and Arylthiodediazoniations of Dry Arenediazonium o-Benzenedisulfonimides. Efficient and Safe Modifications of the Stadler and Ziegler Reactions to Prepare Alkyl Aryl and Diaryl Sulfides
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The reaction between dry arenediazonium o-benzenedisulfonimides 1 and sodium thiolates in anhydrous methanol represents an efficient and safe procedure, of general validity, for the preparation of unfunctionalized or variously functionalized alkyl aryl and diaryl sulfides. As a rule, the reaction temperature was maintained at 0-5°C for the alkylthiodediazoniations and at room temperature (20-25°C) for the arylthiodediazoniations. The sulfide yields are generally high; of the 63 considered examples, 43 gave yields greater than 80% and 13 were between 70% and 80%. Lower yields were obtained only when sterically hindered diazonium salts or thiols were used. A good amount of the o-benzenedisulfonimide (8) was always recovered from the reactions and could be reused to prepare salts 1. The copious experimental data collected in homogeneous conditions have offered several starting points for the study of the mechanism of these reactions.
- Barbero, Margherita,Degani, Iacopo,Diulgheroff, Nicola,Dughera, Stefano,Fochi, Rita,Migliaccio, Mara
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p. 5600 - 5608
(2007/10/03)
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- Preparation of optically active ortho-chloro- and ortho-bromophenyl sulfoxides
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The preparation of the diastereomerically pure menthyl (S)-2-chloro- and (S)-2-bromophenyl sulfinates by esterification of the corresponding sulfinic acids with (1R,2S,5R)-(-)-menthol and recrystallization/epimerization is reported. The two sulfinates have been converted into enantiomerically pure aryl, vinyl and alkyl sulfoxides by reaction with organomagnesium reagents. These sulfoxides are useful chiral auxiliaries to control the stereochemical outcome of radical reactions.
- Imboden, Christoph,Renaud, Philippe
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p. 1051 - 1060
(2007/10/03)
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- Electroreduction of Organic Compounds, 19. Formation of Benzoanellated Sulfur Heterocycles by Intramolecular Cathodic Cyclization of Dithiocarboxylic Esters
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Cathodic reduction of aryl (3) and benzyl (5) dithiopivaloates and related dithioesters with leaving groups at the benzene ring or a side chain yield the sulfur heterocycles 23, 30 - 32, and 34 depending on the nature of the starting material and the reaction conditions.In the case of the α-oxo-dithioester 22, thioindigo (44) is formed. - The corresponding thioamides 14, 16, and 18 show a strong tendency to reductive dehalogenation but the S,N-heterocycles 38 and 39 are also formed in minor amounts. - The formation of the rearranged products 29 - 32, and 34 isdiscussed in terms of C,S-splitting in the primarily formed radical anion and subsequent C,C-coupling of the fragments and follow-up reactions.Key Words: Dithiopivaloates, S-aryl, S-benzyl / Electroreduction
- Gade, Thomas,Streek, Michael,Voss, Juergen
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p. 127 - 142
(2007/10/02)
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- Reactions of Arylsulphonyl, Arylthio and Acyl Acetates with S-Containing Heterocumulenes
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The reaction of arylsulphonyl- or (phenylthio)-acetates 1 with carbon disulphide in a basic medium led to the corresponding ketene dithioacetals 2 in good yields.The o-chloro derivative 1d gave with carbon disulphide various products under different reaction conditions.However, the reaction of 1 with phenyl isothiocyanate primarily resulted in N-substituted pyrimidone derivatives 9, except for 1e which mainly gave S,N-analogues of dithioacetals 10e and 10f. β-Ketoesters 1g, h also reacted with phenyl isothiocyanate to afford 5-acyl-2-thioxo-4-pyrimidones 9g, h.The dependency of the polarisation of the double bond in ketene dithioacetals and their S,N-analogues on acceptor groups was investigated with the help of 13C NMR spectroscopy.
- Chatterjee, Swapan K.,Rudorf, Wolf-Dieter
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p. 2916 - 2935
(2007/10/02)
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- Ring Expansion of Cyclobutanones to Cyclopentanones via α-Lithioalkyl Aryl Sulfoxides and Selenoxides
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Reaction of α-lithioalkyl 2-chlorophenyl sulfoxides (prepared from the corresponding sulfoxides and LDA) with cyclobutanones affords adducts which undergo ring expansion to cyclopentanones upon treatment with potassium hydride.This reaction only works for cyclobutanones substituted at C2 with at least one phenyl or alkenyl group (type I and type II cyclobutanones).Cyclobutanones substituted at C2 with at least one alkyl group (type III and type IV cyclobutanones) undergo similar ring expansion upon treatment with α-lithioalkylphenyl selenoxides followed by direct thermolysis of the adducts.With both the sulfoxide and selenoxide reagents, the carbon atom inserted into the cyclobutanone can be unsubstituted, monosubstituted, or disubstituted.The ring expansions of 17 different cyclobutanones to 29 different cyclopentanones are presented.
- Gadwood, Robert C.,Mallick, Ishwar M.,DeWinter, Amy J.
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p. 774 - 782
(2007/10/02)
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- Process for the nucleophilic substitution of unactivated aromatic and heteroaromatic substrates
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The nucleophilic substitution upon unactivated monocyclic or polycyclic aromatic or heteroaromatic substrates bearing suitable leaving groups can be achieved by catalyzing the substitution of said leaving groups by an anionic nucleophile with a cyclic or acyclic polydentate chelating ligand. Specific products of this reaction can be used in preparing sulfonylurea herbicides.
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