79246-03-0Relevant academic research and scientific papers
N -Alkylation of organonitrogen compounds catalyzed by methylene-linked bis-NHC half-sandwich ruthenium complexes
Botubol-Ares, José Manuel,Collado, Isidro G.,Jiménez-Tenorio, Manuel,Moutaoukil, Zakaria,Serrano-Díez, Emmanuel
supporting information, p. 831 - 839 (2022/02/03)
An efficient ruthenium-catalyzed N-alkylation of amines, amides and sulfonamides has been developed employing novel pentamethylcyclopentadienylruthenium(ii) complexes bearing the methylene linked bis(NHC) ligand bis(3-methylimidazol-2-ylidene)methane. The
Amide Iridium Complexes As Catalysts for Transfer Hydrogenation Reduction of N-sulfonylimine
Wen, Huiling,Luo, Nianhua,Zhu, Qianheng,Luo, Renshi
, p. 3850 - 3859 (2021/03/09)
Sulfonamide moieties widely exist in natural products, biologically active substance, and pharmaceuticals. Here, an efficient water-soluble amide iridium complexes-catalyzed transfer hydrogenation reduction of N-sulfonylimine is developed, which can be carried out under environmentally friendly conditions, affording a series of sulfonamide compounds in excellent yields (96-98%). In comparison with organic solvents, water is shown to be critical for a high catalytic transfer hydrogenation reduction in which the catalyst loading can be as low as 0.001 mol %. These amide iridium complexes are easy to synthesize, one structure of which was determined by single-crystal X-ray diffraction. This protocol gives an operationally simple, practical, and environmentally friendly strategy for synthesis of sulfonamide compounds.
Synthetic method for catalyzing imine to be reduced into amine
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Paragraph 0085-0087, (2021/04/14)
The invention discloses a synthesis method for catalyzing imine to be reduced into amine, wherein the synthesis method is characterized by comprising the following steps: 1, sequentially putting a sulfonyl imine compound and a catalyst I into a reaction bottle according to a reaction molar ratio of 1:0.01 at normal temperature and normal pressure, adding formic acid and a triethylamine solution according to a volume ratio of 5:2, and reacting in a solvent for 1-15 minutes to obtain a reaction product; and 2, after the reaction in the step 1 is finished, sequentially and slowly adding water and ethyl acetate into an obtained reaction product, sufficiently stirring, standing for layering, extracting a separated water layer by using ethyl acetate, combining an extract of ethyl acetate with a separated organic layer, washing by using saturated edible salt water, and drying by using anhydrous sodium sulfate, evaporating to remove the ethyl acetate solvent to obtain a crude product, and separating and purifying by silica gel column chromatography to obtain the amine compound.
AEROBIC OXIDATIVE SYNTHESIS OF SULFONAMIDE USING Cu CATALYST
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Paragraph 0033-0037; 0039-0054; 0133-0134, (2021/04/06)
The present invention relates to a method for oxidative synthesis of sulfonamides using copper catalysts. , Oxygen (O) is used. 2 The oxidative synthesis of sulfonamides (1) comprises reacting a 2 th or sulfonyl hydrazide primary amine with a sulfonyl hydrazide (sulfonamide) with a copper catalyst on a solvent under the conditions in which the sulphonamide is fed. The oxidation coupling of the present invention showed extensive substrate ranges in an amine comprising a 2 primary amine, 1 primary amine and amine hydrochloride salt. It is worth notable that non-reactive aliphatic sulfonyl hydrazides in previously reported anaerobic systems can be used for the aerobic oxidation coupling of the present invention. The oxidation coupling of the present invention has been more effective on large scale.
Cu-catalyzed aerobic oxidative synthesis of sulfonamides from sulfonyl hydrazides and amines
Chung, Sohyun,Kim, Jinho
supporting information, p. 792 - 795 (2019/02/16)
An environmentally friendly route for sulfonamides has been developed. The oxidative coupling of sulfonyl hydrazides and amines was catalyzed by CuBr2 to produce various sulfonamides with the water and nitrogen gas as byproducts. Preliminary experiments revealed that the sulfonyl radical is likely to be involved in the reaction mechanism.
Method for catalytic synthesis of N-benzyl benzene sulfonamide compounds by boric acid/oxalic acid catalytic system under microwave radiation
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Paragraph 0031; 0042, (2018/09/11)
The invention discloses a method for catalytic synthesis of N-benzyl benzene sulfonamide compounds by a boric acid/oxalic acid catalytic system under microwave radiation. The method includes: adoptingbenzyl alcohol and derivatives thereof and benzene sulfonamide derivatives as raw materials, adopting the boric acid/oxalic acid system as a catalyst, and adopting fluorobenzene as a solvent; performing reaction in a microwave reactor under certain temperature and power conditions, performing vacuum concentration after reaction for a period of time, and subjecting a product to column chromatographic purification to realize efficient catalytic preparation of the N-benzyl benzene sulfonamide compounds. Compared with the prior art, the method has advantages of evidently higher reaction speed than that of conventional heating, mild reaction conditions, simplicity in operation, high yield, safety, low cost and environmental friendliness.
One-Pot Synthesis of Sulfonamides from Sodium Sulfinates and Amines via Sulfonyl Bromides
Wu, Sixue,Zhang, Yikun,Zhu, Min,Yan, Jie
, p. 2699 - 2704 (2016/11/30)
a new and convenient procedure has been developed for the preparation of sulfonamides from sodium sulfinates and amines with (n-C4H9)4NBr as bromine source and m-chloroperbenzoic acid as oxidant. This S-N bond formation reaction proceeds efficiently via sulfonyl bromides under neutral conditions to afford the corresponding sulfonamides in good yields at room temperature.
PLATELET ADP RECEPTOR INHIBITORS
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Paragraph 0078; 0089, (2016/08/17)
no abstract published
Metal-free direct construction of sulfonamides via iodine- mediated coupling reaction of sodium sulfinates and amines at room temperature
Wei, Wei,Liu, Chunli,Yang, Daoshan,Wen, Jiangwei,You, Jinmao,Wang, Hua
supporting information, p. 987 - 992 (2015/03/30)
A simple, practical, and metal-free protocol has been developed for the synthesis of sulfonamides from sodium sulfinates and various amines through an iodine-mediated SN bond formation reaction at room temperature. This green reaction is cost-effective, operationally straightforward, and especially proceeds under very mild conditions to afford the target products in good to excellent yields (up to 98%).
Efficient and versatile catalysis of N-alkylation of heterocyclic amines with alcohols and one-pot synthesis of 2-aryl substituted benzazoles with newly designed ruthenium(ii) complexes of PNS thiosemicarbazones
Ramachandran, Rangasamy,Prakash, Govindan,Selvamurugan, Sellappan,Viswanathamurthi, Periasamy,Malecki, Jan Grzegorz,Ramkumar, Venkatachalam
supporting information, p. 7889 - 7902 (2014/05/20)
Ruthenium(ii) carbonyl complexes with phosphine-functionalized PNS type thiosemicarbazone ligands [RuCl(CO)(EPh3)(L)] (1-6) (E = P or As, L = 2-(2-(diphenylphosphino)benzylidene) thiosemicarbazone (PNS-H), 2-(2-(diphenylphosphino)benzylidene)-N-methylthiosemicarbazone (PNS-Me), 2-(2-(diphenylphosphino)benzylidene)-N-phenylthiosemicarbazone (PNS-Ph)) have been synthesized and characterized by elemental analysis and spectroscopy (IR, UV-Vis, 1H, 13C, 31P-NMR) as well as ESI mass spectrometry. The molecular structures of complexes 1, 2 and 6 were identified by means of single-crystal X-ray diffraction analysis. The analysis revealed that all the complexes possess a distorted octahedral geometry with the ligand coordinating in a uni-negative tridentate PNS fashion. All the ruthenium complexes (1-6) were tested as catalyst for N-alkylation of heteroaromatic amines with alcohols. Notably, complex 2 was found to be a very efficient and versatile catalyst towards N-alkylation of a wide range of heterocyclic amines with alcohols. Complex 2 can also catalyze the direct amination of 2-nitropyridine with benzyl alcohol to the corresponding secondary amine. Furthermore, a preliminary examination of performance for N,N-dialkylation of diamine showed promising results, giving good conversion and high selectivity. In addition, N-alkylation of ortho-substituted anilines (-NH2, -OH and -SH) led to the one-pot synthesis of 2-aryl substituted benzimidazoles, benzoxazoles and benzothiazoles, also revealing the catalytic activity of complex 2. This journal is the Partner Organisations 2014.
