- Visible-Light-Mediated Oxidative Amidation of Aldehydes by Using Magnetic CdS Quantum Dots as a Photocatalyst
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A magnetic CdS quantum dot (Fe3O4/polydopamine (PDA)/CdS) was synthesized through a facile and convenient method from inexpensive starting materials. Characterization of the prepared catalyst was performed by means of FTIR spectrosco
- Xu, Ling,Zhang, Shuai-Zheng,Li, Wei,Zhang, Zhan-Hui
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p. 5483 - 5491
(2021/03/01)
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- Amidation of Aldehydes with Amines under Mild Conditions Using Metal-Organic Framework Derived NiO@Ni Mott-Schottky Catalyst
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Here we report a facile method for the synthesis of nickel oxide-nickel (NiO@Ni) Mott-Schottky catalyst employing metal-organic framework (MOF) as the precursor. A direct amidation protocol of aldehydes with amines has been optimized under mild conditions using NiO@Ni Mott-Schottky catalyst and it shows far better catalytic activity than the NiO?Ni nanoparticles prepared from simple Ni2+ salt under similar reaction conditions. The heterogeneous catalyst is robust, recyclable and efficient to provide comparable yield to costly ligand-based homogeneous Ni catalysts. The scope of the reaction protocol has been explored with variably substituted substrates. The reaction initiates by homolytic cleavage of peroxide and proceeds through radical mechanism.
- Goel, Bharat,Vyas, Ved,Tripathi, Nancy,Kumar Singh, Ajit,Menezes, Prashanth W.,Indra, Arindam,Jain, Shreyans K.
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p. 5743 - 5749
(2020/09/09)
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- Amidation of unactivated ester derivatives mediated by trifluoroethanol
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A catalytic amidation protocol mediated by 2,2,2-trifluoroethanol has been developed, facilitating the condensation of unactivated esters and amines, furnishing both secondary and tertiary amides. The complete scope and limitations of the method are described, along with modified conditions for challenging substrates such as acyclic secondary amines and chiral esters with retention of chiral integrity.
- McPherson, Christopher G.,Caldwell, Nicola,Jamieson, Craig,Simpson, Iain,Watson, Allan J. B.
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p. 3507 - 3518
(2017/04/26)
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- Dioxygen-promoted Pd-catalyzed aminocarbonylation of organoboronic acids with amines and CO: A direct approach to tertiary amides
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A direct approach from organoboronic acids and amines to tertiary amides via Pd-catalyzed aerobic aminocarbonylation has been developed. The presence of O2 significantly promotes the efficiency of this transformation. This method uses commercially available organoboronic acids and cheap CO and O2 (1 atm), which renders amides an easy synthesis with broad substrate scope and high functional group tolerance.
- Ren, Long,Li, Xinwei,Jiao, Ning
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supporting information
p. 5852 - 5855
(2016/11/29)
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- Anionic phenoxy-amido rare-earth complexes as efficient catalysts for amidation of aldehydes with amines
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A series of anionic organo-rare-earth amido complexes stabilized by dianionic phenoxy-amido ligands were prepared and their catalytic behavior for amidation reactions of aldehydes with amines was elucidated. Amine elimination reaction of Ln[N(SiMe3)2]3(μ-Cl)Li(THF)3 with an equimolar of lithium aminophenoxy {[HNO]1Li(THF)}2, which was prepared by the reaction of [HNOH]1 {[HNOH]1 = N-p-fluoro-phenyl(2-hydroxy-3,5-di-tert-butyl)benzylamine} with one equivalent of n-BuLi in tetrahydrofuran (THF) in situ, gave the anionic phenoxy-amido rare earth amido complexes [NO]12Ln[N(SiMe3)2][Li(THF)]2 [Ln = Y (1), Yb (2), Sm (3), Nd (4)] in high isolated yields. Similar reactions of Ln[N(SiMe3)2]3(μ-Cl)Li(THF)3 with {[HNO]2Li(THF)}2, and {[HNO]3Li(THF)}2 in THF gave the anionic rare-earth amides [NO]22Ln[N(SiMe3)2][Li(THF)]2 [Ln = Sm (5), Nd (6)] and [NO]32Ln[N(SiMe3)2][Li(THF)]2 [Ln = Sm (7), Nd (8)] {[HNOH]2 = N-p-chloro-phenyl(2-hydroxy-3,5-di-tert-butyl)benzylamine; [HNOH]3 = N-p-bromo-phenyl(2-hydroxy-3,5-di-tert-butyl)benzylamine}, respectively. All of these complexes were fully characterized. X-ray structural determination revealed that these complexes are isostructural, and have solvated monomeric structures. Each of the rare-earth ions is coordinated by two phenoxy-amido ligands and one N(SiMe3)2 group, and the coordination geometry can be described as a distorted trigonal bipyramid. Each of the lithium atoms is surrounded by one aryloxo group, one amido group and one THF molecule, and the coordination geometry can be described as a trigonal plane. The catalytic behavior of these rare-earth amides for the amidation reaction of aldehyde with amine was elucidated. It was found that these complexes are efficient catalysts for this transformation to produce amides in good to excellent yields under mild reaction conditions, and in some cases, diacylamide compounds can be prepared conveniently.
- Wang, Chao,Huang, Lingling,Lu, Min,Zhao, Bei,Wang, Yaorong,Zhang, Yong,Shen, Qi,Yao, Yingming
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p. 94768 - 94775
(2015/11/24)
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- Radical-Induced Metal and Solvent-Free Cross-Coupling Using TBAI-TBHP: Oxidative Amidation of Aldehydes and Alcohols with N-Chloramines via C-H Activation
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A solvent-free cross-coupling method for oxidative amidation of aldehydes and alcohols via a metal-free radial pathway has been demonstrated. The proposed methodology uses the TBAI-TBHP combination which efficiently induces metal-free C-H activation of aldehydes under neat conditions at 50 °C or ball-milling conditions at room temperature.
- Achar, Tapas Kumar,Mal, Prasenjit
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p. 666 - 672
(2015/08/19)
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- Sodium methoxide: A simple but highly efficient catalyst for the direct amidation of esters
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A simple NaOMe catalyst provides superior accessibility to a wide variety of functionalized amides including peptides through direct amination of esters in an atom-economical and environmentally benign way.
- Ohshima, Takashi,Hayashi, Yukiko,Agura, Kazushi,Fujii, Yuka,Yoshiyama, Asako,Mashima, Kazushi
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supporting information; experimental part
p. 5434 - 5436
(2012/07/03)
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- Synthesis and structural diversity of heterobimetallic lanthanide-potassium complexes and catalytic activity for amidation of aldehydes with amines
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Four heterobimetallic lanthanide-potassium complexes stabilized by the carbon-bridged bis(phenolate) ligand MBMP2- (MBMP = 2,2′-methylene bis(6-tert-butyl-4-methylphenolate)), [{(MBMP) 2La(THF)2}2K][K(THF)6] (1), [(MBMP)Nd(μ-MBMP)K(THF)]2 (2), [(THF)2Sm(MBMP) 2K(THF)2] (3), and [(THF)2Yb(MBMP) 2K(THF)3] (4), were synthesized, and their structural features were provided. It was found that the ionic radii of lanthanide metals have a profound effect on the structures of the heterobimetallic complexes. Complexes 1 to 4 are efficient catalysts for amidation reactions of aldehydes with amines to produce amides in good to excellent yields under mild conditions.
- Xu, Bin,Huang, Lingling,Yang, Zijian,Yao, Yingming,Zhang, Yong,Shen, Qi
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experimental part
p. 3588 - 3595
(2011/09/12)
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- Anionic bridged bis(amidinate) lithium lanthanide complexes: Efficient bimetallic catalysts for mild amidation of aldehydes with amines
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Anionic bridged bis(amidinate) lithium lanthanide complexes have been found to be efficient catalysts for the amidation of aldehydes with amines under mild conditions. The activity follows the order : yttrium neodymium europium ytterbium. The catalysts are available for the formation of benzamides derived from pyrrolidine, piperidine, and morpholine with good to excellent yields. In comparison with the corresponding neutral complexes, the anionic complexes show higher activity and a wider range of scope for the amines. A cooperation of the lanthanide and lithium metals in this process is proposed to contribute to the high activity of the present catalyst.
- Wang, Junfeng,Li, Junmei,Xu, Fan,Shen, Qi
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supporting information; experimental part
p. 1363 - 1370
(2009/12/09)
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- Heterobimetallic lanthanide/sodium phenoxides: Efficient catalysts for amidation of aldehydes with amines
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Heterobimetallic lanthanide/sodium phenoxides were found to be efficient catalysts for amidation of aldehydes with amines under mild conditions. The reactivity follows the order Nd 2C6H3O iPr) 2C6H3O 2C 6H3O for phenoxide groups. In comparison with the corresponding monometallic complexes, heterobimetallic complexes show higher activity and a wider range of scope of amines. A cooperation of lanthanide and sodium in this process is proposed to contribute to the high activity of the present catalyst.
- Li, Junmei,Xu, Fan,Zhang, Yong,Shen, Qi
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supporting information; experimental part
p. 2575 - 2577
(2009/07/18)
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- Catalytic transamidation reactions compatible with tertiary amide metathesis under ambient conditions
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The carbon-nitrogen bond of carboxamides is extremely stable under most conditions. The present study reveals that simple zirconium- and hafnium-amido complexes are highly efficient catalysts for equilibrium-controlled transamidation reactions between sec
- Stephenson, Nickeisha A.,Zhu, Jiang,Gellman, Samuel H.,Stahl, Shannon S.
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experimental part
p. 10003 - 10008
(2009/12/08)
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- Mild amidation of aldehydes with amines mediated by lanthanide catalysts
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(Chemical Equation Presented) Catalytic amidation of aldehydes with amines is efficiently mediated by homoleptic lanthanide amido complexes, Ln[N(SiMe 3)2]3 (Ln = La, Sm, and Y). Amidation reactivity follows the trend: La > Sm ≈ Y. These reactions proceed in high yield without added oxidants, bases, and/or heat or light, which are usually required in other catalytic amidation processes. The reaction is demonstrated with a variety of amines, with yields as high as 98% based on amine.
- Seo, SungYong,Marks, Tobin J.
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p. 317 - 319
(2008/09/19)
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