- Environmentally Friendly and Recyclable CuCl 2-Mediated C-S Bond Coupling Strategy Using DMEDA as Ligand, Base, and Solvent
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Simple reaction conditions and recyclable reagents are crucial for environmentally friendly industrial applications. An environment-friendly, recyclable and economic strategy was developed to synthesize diaryl chalcogenides by the CuCl2-catalyzed C S bondformation reaction via iodobenzenes and benzenethiols/1,2-diphenyldisulfanes using N,N'-dimethylethane-1,2-diamine (DMEDA) as ligand, base, and solvent. For these reactions, especially the reactions of diiodobenzenes and aminobenzenethiols/disulfanediyldianilines, a range of substrates are compatible and give the corresponding products in good to excellent yields. Both of the reagents in the catalytic system (CuCl2/DMEDA) are inexpensive, conveniently separable, and recyclable for more than five cycles.
- Shen, Guodong,Lu, Qichao,Wang, Zeyou,Sun, Weiwei,Zhang, Yalin,Huang, Xianqiang,Sun, Manman,Wang, Zhiming
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supporting information
p. 184 - 198
(2021/09/20)
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- Method for synthesizing thioether from thiophenol and halogenated aromatic hydrocarbon
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The invention discloses a method for synthesizing thioether from thiophenol and halogenated aromatic hydrocarbon, and belongs to the field of organic chemistry and photocatalysis. The method uses Pd / ZnIn2 S4 As the photocatalyst, under visible light and alkaline conditions, at N. 2 The method is simple and feasible, can be carried out at room temperature, is good in yield, and has the characteristics of easy separation of the product and the catalyst in the post-treatment process.
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Paragraph 0019-0020
(2021/12/07)
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- Methods, Syntheses and Characterization of Diaryl, Aryl Benzyl, and Dibenzyl Sulfides
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Twenty-four aryl benzyl sulfides, diaryl sulfides and dibenzyl sulfides were synthesized by four methods and characterized by 1H NMR, FT-IR and Gas chromatography. The reaction conditions of different synthesis methods were studied from the aspects of time, solvent, base and dispersant. The molecular structures of benzylphenyl sulfide (2S), (4-tert-butylbenzyl)(4-methylphenyl) sulfide (4S), (4-methylbenzyl)(4-methylphenyl) sulfide (9S), di(4-methylphenyl) sulfide (11S), (3,5-dimethylphenyl)(4-methyl phenyl) sulfide (15S), and dibenzyl sulfide (19S) [22] have been determined by single-crystal X-ray crystallography. Compounds 2S and 15S crystallize in the monoclinic space group P21/c, with a = 12.278(3), b = 15.894(3), c = 5.6056(11) ?, β = 94.532(2)°, and Z = 4 for 2S, and a = 9.800(9), b = 7.950(7), c = 16.690(15) ?, β = 100.890(12)°, and Z = 4 for 15S. The unit cell of 4S has a triclinic Pī symmetry with the cell parameters a = 6.0436(10), b = 8.7871(14), c = 15.535(2) ?, α = 81.921(2)°, β = 81.977(2)°, γ = 80.889(2)°, and Z = 2. Compounds 9S and 11S both crystallize in the orthorhombic space group P212121, with a = 6.188(3), b = 8.041(4), c = 26.005(14) ?, and Z = 4 for 9S, and a = 5.835(2), b = 8.010(3), c = 25.131(9) ?, and Z = 4 for 11S. Graphic Abstract: Twenty-four aryl sulfide compounds with different substituents were synthesized and characterized, and the molecular structures of six different sulfide compounds have been determined by single-crystal X-ray crystallography.[Figure not available: see fulltext.]
- Zhou, Wen-Yan,Chen, Min,Zhang, Pei-Zhi,Jia, Ai-Quan,Zhang, Qian-Feng
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p. 301 - 310
(2020/09/07)
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- A Visible-Light-Harvesting Covalent Organic Framework Bearing Single Nickel Sites as a Highly Efficient Sulfur–Carbon Cross-Coupling Dual Catalyst
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Covalent Organic Frameworks (COFs) have recently emerged as light-harvesting devices, as well as elegant heterogeneous catalysts. The combination of these two properties into a dual catalyst has not yet been explored. We report a new photosensitive triazine-based COF, decorated with single Ni sites to form a dual catalyst. This crystalline and highly porous catalyst shows excellent catalytic performance in the visible-light-driven catalytic sulfur–carbon cross-coupling reaction. Incorporation of single transition metal sites in a photosensitive COF scaffold with two-component synergistic catalyst in organic transformation is demonstrated for the first time.
- Chen, Hui,Liu, Wanlu,Laemont, Andreas,Krishnaraj, Chidharth,Feng, Xiao,Rohman, Fadli,Meledina, Maria,Zhang, Qiqi,Van Deun, Rik,Leus, Karen,Van Der Voort, Pascal
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supporting information
p. 10820 - 10827
(2021/04/09)
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- Room temperature nickel-catalyzed cross-coupling of aryl-boronic acids with thiophenols: Synthesis of diarylsulfides
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A NiCl2/2,2′-bipyridine-catalyzed cross-coupling of thiophenols with arylboronic acids has been developed for the synthesis of symmetric and unsymmetric diarylsulfides at room temperature and in air. This methodology is reliable and offers a mild and easy to operate process for the synthesis of arylthioethers, which are essential compounds with applications in the pharmaceutical and agricultural industries. This method avoids the use of expensive transition metals, such as Pd, Ir or Rh, sophisticated ligands and elevated temperatures. It also has a wide substrate scope (55 examples) and provides products in good to excellent yields (72-93%).
- Bhowmik, Amit,Fernandes, Rodney A.,Yadav, Mahesh
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p. 2447 - 2458
(2020/04/15)
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- NiFe2O4 as a magnetically recoverable nanocatalyst for odourless C–S bond formation via the cleavage of C–O bond in the presence of S8 under mild and green conditions
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We present green methodologies for one-pot and odourless syntheses of unsymmetric and symmetric diaryl sulfides via C─O bond activation using NiFe2O4 magnetic nanoparticles as a reusable heterogeneous nanocatalyst. The synthesis of unsymmetric sulfides is performed using the cross-coupling reaction of phenolic esters such as acetates, triflates and tosylates with arylboronic acid/S8 or triphenyltin chloride/S8 as thiolating agents in the presence of base and NiFe2O4 magnetic nanoparticles as a catalyst in poly(ethylene glycol) as solvent at 60–85°C. Also, the synthesis of symmetric diaryl sulfides from phenolic compounds using S8 as the sulfur source and NiFe2O4 as catalyst in dimethylformamide at 120°C is described. Using these protocols, the syntheses of various unsymmetric and symmetric sulfides become easier than using the available protocols due to the use of a magnetically reusable bimetallic nanocatalyst and avoiding the use of thiols and aryl halides.
- Atashkar, Bahareh,Rostami, Amin,Rostami, Abed,Zolfigol, Mohammad Ali
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- Merging Photoredox and Organometallic Catalysts in a Metal–Organic Framework Significantly Boosts Photocatalytic Activities
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Metal–organic frameworks (MOFs) have been extensively used for single-site catalysis and light harvesting, but their application in multicomponent photocatalysis is unexplored. We report here the successful incorporation of an IrIII photoredox catalyst and a NiII cross-coupling catalyst into a stable Zr12 MOF, Zr12-Ir-Ni, to efficiently catalyze C?S bond formation between various aryl iodides and thiols. The proximity of the IrIII and NiII catalytic components to each other (ca. 0.6 nm) in Zr12-Ir-Ni greatly facilitates electron and thiol radical transfers from Ir to Ni centers to reach a turnover number of 38 500, an order of magnitude higher than that of its homogeneous counterpart. This work highlights the opportunity in merging photoredox and organometallic catalysts in MOFs to effect challenging organic transformations.
- Zhu, Yuan-Yuan,Lan, Guangxu,Fan, Yingjie,Veroneau, Samuel S.,Song, Yang,Micheroni, Daniel,Lin, Wenbin
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supporting information
p. 14090 - 14094
(2018/10/15)
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- Copper-Catalyzed C-S Bond Formation via the Cleavage of C-O Bonds in the Presence of S8 as the Sulfur Source
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Useful and applicable methods for one-pot and odorless synthesis of unsymmetrical and symmetrical diaryl sulfides via C-O bond activation are presented. First, a new efficient procedure for the synthesis of unsymmetrical sulfides using the cross-coupling reaction of phenolic esters such as acetates, tosylates, and triflates and with arylboronic acid or triphenyltin chloride as the coupling partners is reported. Depending on the reaction, S 8 /KF or S 8 /NaO t -Bu system is found to be an effective source of sulfur in the presence of copper salts and in poly(ethylene glycol) as a green solvent. Then, the synthesis of symmetrical diaryl sulfides from phenolic compounds by using S 8 as the sulfur source and NaO t -Bu in anhydrous DMF at 120 °C under N 2 is described. By these protocols, the synthesis of a variety of unsymmetrical and symmetrical sulfides become easier than the available protocols in which thiols and aryl halides are directly used for the preparation of the sulfides.
- Rostami, Abed,Rostami, Amin,Ghaderi, Arash,Gholinejad, Mohammad,Gheisarzadeh, Sajedeh
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p. 5025 - 5038
(2017/10/06)
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- Development of a new variant of the migita reaction for carbon#sulfur bond formation used in the manufacture of tetrahydro-4-[3-[4-(2-methyl-1H-imidazol-1- yl)phenyl]thio]phenyl-2H-pyran-4-carboxamide
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Palladium-catalyzed carbon-sulfur bond formation using modified Migita reaction conditions was explored and applied to the synthesis of a former antiasthma drug candidate, tetrahydro-4-[3-[4-(2-methyl-1H-imidazol-1-yl)phenyl] thio]phenyl-2H-pyran-4-carboxamide (5). The reaction was developed into a general method for thioaryl halide cross-coupling, and a specific example of its use to synthesize a key intermediate, tetrahydro-4-[3-(4-fluorophenyl)thio] phenyl-2H-pyran-4-carboxamide (6) was demonstrated at large scale to provide phase II clinical supplies of 5. Comparison of the multistep phase I process and the two-step phase II process showed an overall yield advantage over the bond-forming steps from common starting material (1) to API 5 of 40%. The ligand effect in the modified Migita reaction is described in detail. The second step of the scale-up process illustrated formation of carbon-nitrogen bonds without use of palladium catalysis, providing a contrast to the first reaction; both reactions were developed into efficient single-vessel direct isolation processes.
- Norris, Timothy,Leeman, Kyle
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supporting information
p. 869 - 876
(2013/01/03)
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- CATALYSTS FOR ARYL SULFIDE SYNTHESIS AND METHOD OF PRODUCING ARYL SULFIDES
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The present invention relates to the formation of aryl sulfides and aryl thiols from aryl halides and thiols, thiolates or thiolate equivalents. The present invention provides a catalyst for the coupling of aryl halides with alkyl or aryl thiols or a hydrogen sulfide equivalent to form aryl alkyl, aryl silyl or diaryl sulfides. The reaction encompasses bromoarenes and other similar compounds containing leaving groups as well as nitrile, ester, keto, free hydroxyl, free amino, free carboxylic acid and other common functionalities. The invention can be used to prepare pharmaceutical compounds, especially including their intermediates, agricultural agents and aryl sulfide polymers.
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Page/Page column 22; 37
(2008/06/13)
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- A general and long-lived catalyst for the palladium-catalyzed coupling of aryl halides with thiols
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A general catalytic system for the coupling of aryl halides and sulfonates with thiols based on the use of the CyPF-t-Bu ligand (1) is reported. The reactions catalyzed by complexes of 1 occur in excellent yields with broad scope and exhibit extraordinary turnover numbers and high tolerance of functional groups. Turnover numbers usually exceed those of previous catalysts by 2 or 3 orders of magnitude. In addition, the reactions of aryl tosylates with alkane thiols to form aryl sulfides are reported for the first time. Finally, the synthesis of a diarylsulfide from two bromoarenes was accomplished using a hydrogen sulfide surrogate. Copyright
- Fernandez-Rodriguez, Manuel A.,Shen, Qilong,Hartwig, John F.
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p. 2180 - 2181
(2007/10/03)
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- Highly efficient and functional-group-tolerant catalysts for the palladium-catalyzed coupling of aryl chlorides with thiols
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The cross-coupling reaction of aryl chlorides with aliphatic and aromatic thiols catalyzed by palladium complexes of the strongly binding bisphosphine CyPF-tBu ligand (1) is reported. Most of the reactions catalyzed by complexes of ligand 1 occur with turnover numbers that exceed those of previous catalysts by two orders of magnitude. The reactions occur with excellent yields, broad scope and high tolerance of functional groups. Coupling of aryl halides with thiols in the presence of low loadings of catalysts derived from other Josiphos type ligands, as well as ligands of other structural types, are also described.
- Fernandez-Rodriguez, Manuel A.,Shen, Qilong,Hartwig, John F.
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p. 7782 - 7796
(2007/10/03)
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- REACTION OF DIMETHYL SULFITE WITH PHENYLLITHIUM. FORMATION OF BIPHENYL AND DIPHENYL SULFIDE VIA SULFURANE
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Dimethyl sulfite reacted an excess of phenyllithium yielding biphenyl and diphenyl sulfide in good yield.Other dialkyl sulfites also reacted giving identical yields of biphenyl and diphenyl sulfide irrespective of the structure of the aryl groups, indicating that dialkyl sulfites can be used for the reaction with aryllithiums in place of diaryl sulfoxides.The mechanism of the reaction of diaryl sulfoxides with aryllithium is discussed on the the basis of the isomer distribution of bitolyls, the effect of additives, and the ratio of the benzyne and sulfonium salt pathways.Sulfurane 1 is formed in an initial stage of the reaction of diaryl sulfoxide with aryllithium followed by its competitive collapse by way of benzyne and sulfonium salt pathways.
- Hara, Yoshinori,Matsuda, Minoru
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p. 211 - 222
(2007/10/02)
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