95384-60-4Relevant academic research and scientific papers
Compound containing bipyrazole ring, intermediate thereof and application thereof
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Paragraph 0290-292, (2020/05/14)
The invention discloses a compound containing a bipyrazole ring, and an intermediate and application thereof. The invention provides the compound containing a bipyrazole ring, as shown in a formula Iwhich is described in the specification. The compound can be used as a ligand, is high in selectivity, and is suitable for the application range of amide in C-N coupling and the C-C coupling reactionof arylboronic acid and aryl chloride, especially coupling with aryl chloride.
Preparation method of compound containing bipyrazole ring and intermediate thereof
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Paragraph 0290-0292, (2020/05/14)
The invention discloses a preparation method of a compound containing a bipyrazole ring and an intermediate of the compound. The preparation method of a bipyrazole ring-containing compound as shown ina formula I comprises the following steps: (1) adding alkali into a mixture of a bipyrazole ring compound as shown in a formula I-1 and a solvent for replacement reaction to obtain a mixed system; and (2) adding an organic phosphorus compound shown as a formula I-2 into the mixed system in the step (1), and carrying out a phosphonation reaction shown in the specification, so as to obtain the bipyrazole ring-containing compound shown as the formula I, wherein R1 and R2 are independently a C1-C6 alkyl group, a C3-C8 cycloalkyl group and a phenyl group, R3 is a C1-C6 alkyl group, and X is halogen. The prepared compound containing a bipyrazole ring can be used as a ligand, and is suitable for the application range of amide in C-N coupling and the C-C coupling reaction of arylboronic acid andaryl chloride.
Catalytic direct amidations in: Tert -butyl acetate using B(OCH2CF3)3
Coomber, Charlotte E.,Laserna, Victor,Martin, Liam T.,Smith, Peter D.,Hailes, Helen C.,Porter, Michael J.,Sheppard, Tom D.
supporting information, p. 6465 - 6469 (2019/07/09)
Catalytic direct amidation reactions have been the focus of considerable recent research effort, due to the widespread use of amide formation processes in pharmaceutical synthesis. However, the vast majority of catalytic amidations are performed in non-polar solvents (aromatic hydrocarbons, ethers) which are typically undesirable from a sustainability perspective, and are often poor at solubilising polar carboxylic acid and amine substrates. As a consequence, most catalytic amidation protocols are unsuccessful when applied to polar and/or functionalised substrates of the kind commonly used in medicinal chemistry. In this paper we report a practical and useful catalytic direct amidation reaction using tert-butyl acetate as the reaction solvent. The use of an ester solvent offers improvements in terms of safety and sustainability, but also leads to an improved reaction scope with regard to polar substrates and less nucleophilic anilines, both of which are important components of amides used in medicinal chemistry. An amidation reaction was scaled up to 100 mmol and proceeded with excellent yield and efficiency, with a measured process mass intensity of 8.
Palladium-catalyzed carbonylation of benzylic ammonium salts to amides and esters: Via C-N bond activation
Yu, Weijie,Yang, Shuwu,Xiong, Fei,Fan, Tianxiang,Feng, Yan,Huang, Yuanyuan,Fu, Junkai,Wang, Tao
supporting information, p. 3099 - 3103 (2018/05/22)
An efficient palladium-catalyzed carbonylation reaction of readily available quaternary ammonium salts with CO is reported for the first time to afford arylacetamides and arylacetic acid esters via benzylic C-N bond cleavage. This protocol features mild reaction conditions under atmospheric pressure of CO, a redox-neutral process without an additional oxidant, and a broad substrate scope for various kinds of amines, alcohols and phenols.
Synthesis of ortho-arylated/benzylated arylacetamide derivatives: Pd(OAc)2-catalyzed bidentate ligand-aided arylation and benzylation of the γ-C[sbnd]H bond of arylacetamides
Bisht, Narendra,Babu, Srinivasarao Arulananda
, p. 5886 - 5897 (2016/09/07)
In this paper, we report the Pd(OAc)2/AgOAc, bidentate ligand-directed C[sbnd]H functionalization of the sp2γ-C[sbnd]H bond of arylacetamides. While, the bidentate ligand-directed site selective functionalization of the β-C[sbnd]H bond of aromatic carboxylic acid derivatives is well known, we herein, report our attempts on the Pd(II)-catalyzed, bidentate ligand-directed arylation, benzylation, alkylation, acetoxylation and hydroxylation of the sp2γ-C[sbnd]H bond of the arylacetamide systems. The arylation and benzylation of arylacetamides were successful; however, the alkylation and acetoxylation/hydroxylation of arylacetamides were not successful. Various ligands were screened to substantiate the need for the bidentate ligand in the arylation/benzylation of arylacetamides, and 8-aminoquinoline was found to be the best bidentate ligand. Several substituted aryl-/heteroaryl iodides, 4-nitrobenzyl bromide and arylacetamide substrates were used to examine their reactivity pattern and accomplish the substrate scope/generality. In general, the bidentate ligand 8-aminoquinoline-directed arylation of arylacetamides gave the corresponding ortho-diarylated arylacetamides and benzylation of arylacetamides gave the corresponding ortho-mono benzylated arylacetamides as the predominant compounds. Overall, this method has led to the synthesis of new ortho-substituted arylacetamides in good to high yields.
Direct synthesis of amides from carboxylic acids and amines using B(OCH2CF3)3
Lanigan, Rachel M.,Starkov, Pavel,Sheppard, Tom D.
, p. 4512 - 4523 (2013/06/05)
B(OCH2CF3)3, prepared from readily available B2O3 and 2,2,2-trifluoroethanol, is as an effective reagent for the direct amidation of a variety of carboxylic acids with a broad range of amines. In most cases, the amide products can be purified by a simple filtration procedure using commercially available resins, with no need for aqueous workup or chromatography. The amidation of N-protected amino acids with both primary and secondary amines proceeds effectively, with very low levels of racemization. B(OCH2CF3)3 can also be used for the formylation of a range of amines in good to excellent yield, via transamidation of dimethylformamide.
A straightforward synthesis of N-monosubstituted α-keto amides via aerobic benzylic oxidation of amides
Shao, Jun,Huang, Xiaomei,Wang, Siyuan,Liu, Bingxin,Xu, Bin
supporting information; experimental part, p. 573 - 579 (2012/01/13)
An efficient sodium bicarbonate promoted aerobic oxidation reaction to prepare N-monosubstituted α-keto amides in the presence of n-tetrabutylammonium hydrogensulfate (TBAHS) was described. This reaction provides a very simple and convenient synthetic route to N-monosubstituted α-keto amides from easily available aryl- or heteroarylacetamides in good to high yields without using toxic reagents and harsh conditions.
Pharmaceutical compositions comprising 2-quinolones
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, (2008/06/13)
The invention concerns a pharmaceutical composition having an activity on the proliferation of clonogenic cells in tumours and comprising an efficient amount of a compound selected among the compounds of formulae (I) and (Ia) wherein: X, R1, R
3-Aryl-2-quinolone derivatives: Synthesis and characterization of in vitro and in vivo antitumor effects with emphasis on a new therapeutical target connected with cell migration
Joseph, Beno?t,Darro, Francis,Béhard, Aurélie,Lesur, Brigitte,Collignon, Fran?oise,Decaestecker, Christine,Frydman, Armand,Guillaumet, Gérald,Kiss, Robert
, p. 2543 - 2555 (2007/10/03)
Among 25 3-aryl-2-quinolone derivatives synthesized, the antitumor activity of some of them was characterized both in vitro and in vivo. In this series, no compound appeared to be cytotoxic in vitro, as was known by the colorimetric MTT assay carried out
