149452-90-4Relevant academic research and scientific papers
Method for preparing diphenyl sulfone compound through catalysis of palladium acetate
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Paragraph 0023; 0024, (2019/07/04)
The invention discloses a method for preparing a diphenyl sulfone compound shown in formula (III) through catalysis of palladium acetate. The method comprises the following steps: fully reacting a bromobenzene compound as shown in formula (I), sodium sulfate and a benzoic acid compound as shown in formula (II) in a reaction medium with dimethylformamide (DMF) as a solvent under the action of palladium acetate as a catalyst and alkali metal carbonate as a base to prepare a reactant, and carrying out aftertreatment on the reactant to prepare the diphenyl sulfone compound. The catalyst is 20-mol%equivalent of the palladium acetate, and the alkali metal carbonate is cesium carbonate; in a reaction formula as shown in specification, R1 is selected from one of the following components: hydrogenand methyl; R2 is selected from one of the following components: hydrogen, methyl, methoxyl and trifluoromethoxy; the raw materials are simple, convenient and easy to obtain, and the preparation conditions are mild; the cost is low, and the requirement on equipment is low; aftertreatment is facilitated; and a catalytic system has wide adaptability and is suitable for large-scale industrial production.
Organic photoredox catalysis enabled cross-coupling of arenediazonium and sulfinate salts: Synthesis of (un)symmetrical diaryl/alkyl aryl sulfones
Chawla, Ruchi,Yadav, Lal Dhar S.
supporting information, p. 4761 - 4766 (2019/05/24)
We disclose herein the first transition-metal-and external oxidant/reductant-free visible-light-mediated synthesis of (un)symmetrical diaryl/alkyl aryl sulfones from arenediazonium tetrafluoroborates and sodium sulfinates using eosin Y as an organic photoredox catalyst. The utilization of visible light as an inexpensive and ecosustainable energy source, operational simplicity, ambient temperature and clean reaction in aqueous acetonitrile are the salient features of the developed protocol. The desired sulfones were also synthesized via a one-pot, two-step process directly from anilines and sulfinate salts in good to excellent yields.
A practical synthesis of aryl sulfones via cross-coupling of sulfonyl hydrazides with aryltriazenes using copper/ionic liquid combination
Pandey, Anand Kumar,Kumar, Saurabh,Singh, Rahul,Singh, Krishna Nand
supporting information, p. 6704 - 6709 (2018/10/15)
A new and efficient approach adopting copper-catalyzed cross-coupling of sulfonyl hydrazides with aryltriazenes has been developed to synthesize aryl sulfones using Br?nsted acidic ionic liquid as promoter under ambient conditions. The process employs stable and easy to handle reacting partners, and is endowed with broad substrate scope.
Copper-mediated sulfonylation of aryl iodides and bromides with arylsulfonyl hydrazides in PEG-400
Wu, Xiangmei,Wang, Yan
, p. 10953 - 10957 (2018/07/06)
Sulfonylation using stable and readily available arylsulfonyl hydrazides and aryl iodides or bromides mediated by cupric acetate has been achieved. Using polyethylene glycol (PEG-400) as an eco-friendly medium, the coupling reaction could afford a series of unsymmetrical diaryl sulfones in moderate to good yields without the presence of additional ligands and base.
A Simple Metal Free Oxidation of Sulfide Compounds
Wagh, Ravindra B.,Nagarkar, Jayashree M.
, p. 181 - 187 (2017/02/18)
Abstract: This work reports simple, efficient, selective protocol for the oxidation of sulfide compounds. Various sulfides were selectively and completely converted into their corresponding sulfoxides and sulfones using H2O2as an oxidant in presence of catalytic amount of caprylic acid. The reaction proceeds at room temperature to give sulfoxide and by increasing the reaction temperature to 50 °C, this system provides selective formation of sulfone with high conversion and excellent yields. Green, convenient, easy work-up, chemoselectivity, broad substrate scope and regeneration of catalyst are the important highlights of this protocol. Graphical Abstract: [Figure not available: see fulltext.] Using H2O2as an oxidant in presence of catalytic amount of caprylic acid various sulfides were selectively and completely converted into their corresponding sulfoxides and sulfones.
Copper catalyzed synthesis of unsymmetrical diaryl sulfones from an arenediazonium salt and sodium p-toluenesulfinate
Gund, Sitaram Haribhau,Shelkar, Radheshyam Suresh,Nagarkar, Jayashree Milind
, p. 62926 - 62930 (2015/08/06)
Aryl sulfones have been for the first time synthesized by the reaction of sodium p-toluenesulfinate and arenediazonium salts using a CuI catalyzed homogeneous system. The developed protocol is a simple and efficient new route for the synthesis of diaryl sulfones with excellent product yields. The mild reaction conditions tolerate a range of functional groups. The best results were obtained with CuI, N,N′-dimethylethylenediamine, TBAI and K2CO3 in dimethyl sulfoxide at 100°C under an inert atmosphere.
General copper-catalyzed transformations of functional groups from arylboronic acids in water
Yang, Haijun,Li, Yong,Jiang, Min,Wang, Junmei,Fu, Hua
experimental part, p. 5652 - 5660 (2011/06/23)
A simple and general copper-catalyzed method has been developed for transformations of various functional groups (i I, i N3, i SO2R, i OH, i NH2, and i NO 2) on aromatic rings from arylboronic acids in water under air. The protocol uses cheap and readily available inorganic salts (KI, NaN3, NaSO2R, NaOH, NaNO2) and aqueous ammonia as the functional-group sources, simple Cu2O/NH3 as the catalyst system, environmentally friendly water as the solvent, and oxygen in air as the oxidant. Importantly, the copper catalyst system in water was recyclable. This study should provide a useful strategy for interconversions of the functional groups on aromatic rings.
Palladium-catalyzed aromatic sulfonylation: A new catalytic domino process exploiting in situ generated sulfinate anions
Le Duc, Ga?tan,Bernoud, Elise,Prestat, Guillaume,Cacchi, Sandro,Fabrizi, Giancarlo,Iazzetti, Antonia,Madec, David,Poli, Giovanni
supporting information; experimental part, p. 2943 - 2946 (2012/01/05)
Allylic sulfones are excellent precursors of aryl sulfones via a new Pd-catalyzed domino sequence involving in situ generation of sulfinate anions and subsequent cross-coupling with aryl -iodides or bromides. Georg Thieme Verlag Stuttgart · New York.
Sulfonylation of arenes with sulfonamides
Yao, Bangben,Zhang, Yuhong
, p. 5385 - 5388 (2008/12/21)
In the presence of triflic anhydride, sulfonylation of arenes with sulfonamides proceeded smoothly in Cl2CHCHCl2 at 80-140 °C, which gave rise to the desired products in good to excellent yields.
Unsymmetrical diaryl sulfones and aryl vinyl sulfones through palladium-catalyzed coupling of aryl and vinyl halides or triflates with sulfinic acid salts
Cacchi, Sandro,Fabrizi, Giancarlo,Goggiamani, Antonella,Parisi, Luca M.,Bernini, Roberta
, p. 5608 - 5614 (2007/10/03)
The palladium-catalyzed reaction of sulfinic acid salts with a wide variety of aryl and vinyl halides or triflates provides unsymmetrical diaryl sulfones and aryl vinyl sulfones in good to excellent yields. The reaction is strongly influenced by the presence of nBu4NCl, and the use of Xantphos, a rigid bidentate ligand with a wide natural bite angle, was found to be crucial for the success of the reaction. With neutral, electron-rich, and electron-poor aryl iodides best results were obtained by using Pd 2(dba)3, Xantphos, Cs2CO3, and nBu4NCl, in toluene at 80 °C. Two general procedures were employed with aryl bromides and triflates: sodium p-toluenesulfinate, Pd2(dba)3, Xantphos, Cs2CO3, 120 °C, in toluene with nBu4NCl (procedure A: neutral, electron-rich, and slightly electron-poor aryl bromides or triflates) and without nBu4NCl (procedure B: electron-poor aryl bromides or triflates). With vinyl triflates best results were obtained at 60 °C omitting nBu4NCl.
