- Photocatalytic aldehydes/alcohols/toluenes oxidative amidation over bifunctional Pd/MOFs: Effect of Fe-O clusters and Lewis acid sites
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Heterogeneous photocatalytic organic synthesis is fascinating because of the utilization of ubiquitous solar light for chemical transformations. Here, three Fe-MOFs with different Fe-O clusters, Lewis acid sites and morphologies were synthesized through coordination structure engineering. Pd/Fe-MOFs nanocomposites were used to challenge the amide bond green synthesis with visible light. Pd/MIL-101(Fe) exhibited the best photocatalytic performance due to the easily excited Fe3-μ3-oxo clusters for light absorption, the efficient photogenerated carriers separation and migration, the large amount of Lewis acid sites based aldehydes and amines condensation promotion and the efficient O2 reduction to superoxide radicals over photogenerated electron-rich Pd NPs. Various aldehydes, alcohols and toluenes could be transformed to amide compounds with amines over Pd/MIL-101(Fe) with just oxygen or air as the green oxidant and water as the by-product. One-pot C–C cross-coupling and photo-redox C–N coupling cascade reactions could also be achieved over Pd/MIL-101(Fe). This work shed light on the efficient and sustainable amide bonds synthesis.
- Bian, Fengxia,Cheng, Hongmei,Jiang, Heyan,Sun, Bin,Tan, Jiangwei,Zang, Cuicui
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p. 279 - 287
(2021/08/21)
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- Catalytic N-Acylation of Cyclic Amines by Arylglyoxylic Acids via Radical-Radical Cross-Coupling
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A methodical mechanistic investigation allowed for the catalytic N-acylation of secondary cyclic amine counterparts by arylglyoxylic acids through radical-radical coupling. The reaction proceeds via a twofold SET-promoted Cu(I)/Cu(II) catalytic cycle under mild conditions. An analogous reaction variant allows for the N-acylation in a one-pot fashion directly starting from a secondary cyclic amine even in the presence of a second amine or hydroxy group.
- Bhadra, Sukalyan,Gupta, Aniket,Kumar Singh, Anupam,Rahaman, Ajijur
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supporting information
p. 2198 - 2202
(2021/07/22)
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- Acetyl nitrate mediated conversion of methyl ketones to diverse carboxylic acid derivatives
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The development of a novel acetyl nitrate mediated oxidative conversion of methyl ketones to carboxylic acid derivatives is described. By analogy to the haloform reaction and supported by experimental and computational investigation we propose a mechanism for this transformation.
- Bernard, Josephine,Capilato, Joseph N.,Hoy, Erik P.,Mattiucci, Joseph,Pellegrinelli, Peter J.,Perez, Lark J.,Philippi, Shane,Schnorbus, Logan
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p. 5298 - 5302
(2021/06/30)
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- NaI-mediated oxidative amidation of benzyl alcohols/aromatic aldehydes to benzamides via electrochemical reaction
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In this research, we have developed a mild electrochemical process for oxidative amidation of benzyl alcohols/aromatic aldehydes with cyclic amines into the corresponding benzamides. This electroorganic synthetic method proceeds using NaI as a redox mediator under ambient temperature in undivided cell, providing more than 25 examples of amide products in moderate to good yields. The benefits of this reaction include one-pot synthesis, open air condition, proceed in aqueous media and no requirement of external conducting salt, base and oxidant.
- Rerkrachaneekorn, Tanawat,Tankam, Theeranon,Sukwattanasinitt, Mongkol,Wacharasindhu, Sumrit
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supporting information
(2021/04/15)
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- Palladium-Catalyzed Desulfurative Amide Formation from Thioureas and Arylboronic Acids
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The development of the reactivity on carbene complexes would lead to the creation of novel synthetic strategies. We discovered herein the Pd-catalyzed desulfurative amide formation involved Suzuki-Miyaura coupling reaction, notably the Pd complex was generated in situ from thioureas, Ag salt and Pd catalyst. Silver salt was essential for the construction of this type of carbenes from available and stable thioureas and well participated in the catalytic cycle. We report a method for the synthesis of arylamides from arylboronic acids, which greatly enriched the application of thiourea chemistry and expanded the application of the Suzuki-Miyaura coupling.
- Su, Jianke,Li, Wendong,Li, Xin,Xu, Jian,Song, Qiuling
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p. 5664 - 5668
(2020/10/02)
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- N2-carbamylaryl-2-aminopyrimidine derivative and medical application thereof
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The invention provides an N2-carbamylaryl-2-aminopyrimidine derivative and a medical application thereof. The N2-carbamylaryl-2-aminopyrimidine derivative provided by the invention comprises an optical isomer of the N2-carbamylaryl-2-aminopyrimidine derivative and pharmaceutically acceptable salt thereof. Pharmacodynamic research shows that the traditional Chinese medicine composition has no toxicor side effect, the compound has an FLT3 inhibitory activity. The proliferation inhibition activity is realized on various leukemia cell strains; a medium inhibition effect is achieved on breast cancer cells; moreover, the polypeptide is effective for multiple mutations of AML, such as internal tandem repeat mutation of a near-membrane structural domain and D835 point mutation of an activated ring in a kinase structural domain, almost has no inhibition effect on c-KIT, can overcome drug resistance brought by clinical point mutation, can reduce toxic and side effects of bone marrow inhibition,and can be applied to preparation of antitumor drugs. The structures of the general formulas Ia and Ib of the N2-carbamylaryl-2-aminopyrimidine derivative are shown in the specification,
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Paragraph 0037; 0040-0041; 0102-0103; 0106
(2020/10/28)
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- Electrochemical Amide Bond Formation from Benzaldehydes and Amines: Oxidation by Cathodic-Generated Hydrogen Peroxide
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Although amide bond formation from aldehydes and amines is a popular synthetic tool, most of the previously reported reactions depend on transition-metal catalysts or expensive oxidants. We considered that a more environmentally benign and safer approach could be achieved by electrochemistry. Nineteen benzamide derivatives were obtained with this reaction. NMR studies, cyclic voltammetry (CV) investigations, and control experiments showed that the corresponding intermediate, a hemiaminal, was transformed into the amide by oxidation with hydrogen peroxide generated in situ by cathodic reduction of molecular oxygen.
- Kurose, Yuma,Imada, Yasushi,Okada, Yohei,Chiba, Kazuhiro
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supporting information
p. 3844 - 3846
(2020/06/23)
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- Catalyst-Free, Metal-Free, and Chemoselective Transamidation of Activated Secondary Amides
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A simple protocol, which is catalyst-free, metal-free, and chemoselective, for transamidation of activated secondary amides in ethanol as solvent under mild conditions is reported. A wide range of amines, amino acids, amino alcohols, and the substituents, which are problematic in catalyzed transamidation, are tolerated in this methodology. The transamidation reaction was successfully extended to water as the medium as well. The present methodology appears to be better than the other catalyzed transamidations reported recently.
- Ramkumar, Rajagopal,Chandrasekaran, Srinivasan
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p. 921 - 932
(2019/02/10)
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- Delta opiate receptor antagonist, application thereof and medicine composition
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The invention discloses a compound with a structure shown as a general formula (I) (the general formula is shown in the description), a pharmaceutical salt, hydrate or metabolite formed through metabolism in any form, application of the compound with the
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-
Paragraph 0144-0147
(2019/07/04)
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- Frustrated Lewis Pair Catalyzed Hydrogenation of Amides: Halides as Active Lewis Base in the Metal-Free Hydrogen Activation
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A method for the metal-free reduction of carboxylic amides using oxalyl chloride as an activating agent and hydrogen as the final reductant is introduced. The reaction proceeds via the hydrogen splitting by B(2,6-F2-C6H3)3 in combination with chloride as the Lewis base. Density functional theory calculations support the unprecedented role of halides as active Lewis base components in the frustrated Lewis pair mediated hydrogen activation. The reaction displays broad substrate scope for tertiary benzoic acid amides and α-branched carboxamides.
- Sitte, Nikolai A.,Bursch, Markus,Grimme, Stefan,Paradies, Jan
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supporting information
p. 159 - 162
(2019/01/04)
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- NOVEL COMPOUND HAVING BLT INHIBITORY ACTIVITY AND COMPOSITION, FOR PREVENTING OR TREATING INFLAMMATORY DISEASES, COMPRISING SAME AS ACTIVE INGREDIENT
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The present invention relates to a novel compound showing leukotriene B4 receptor 2 (BLT2) inhibitory activity and a pharmaceutical composition, for preventing or treating inflammatory diseases, comprising same as an active ingredient. The inventors identified a novel compound containing BTL2 inhibitory activity, and experimentally confirmed that the present novel compound had an excellent effect on the enhancement of the cancer cell death, on the inhibition of the metastasis and chemotactic mobility, and on the anti-asthma activity. Therefore, the present novel compound can be used as a very effective pharmaceutical component for treating the inflammatory-related diseases.
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-
Paragraph 0044; 0071
(2018/06/07)
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- Cross-Dehydrogenating Coupling of Aldehydes with Amines/R-OTBS Ethers by Visible-Light Photoredox Catalysis: Synthesis of Amides, Esters, and Ureas
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A straightforward synthesis of amides, ureas, and esters is reported by visible-light cross-dehydrogenating coupling (CDC) of aldehydes (or amine carbaldehydes) and amines/R-OTBS ethers by photoredox catalysis. The reaction is found to be general and high yielding. A plausible mechanistic pathway has been proposed for these transformations and is supported by appropriate controlled experiments.
- Pandey, Ganesh,Koley, Suvajit,Talukdar, Ranadeep,Sahani, Pramod Kumar
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supporting information
p. 5861 - 5865
(2018/09/21)
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- Chemoselective amide reductions by heteroleptic fluoroaryl boron Lewis acids
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The heteroleptic borane catalyst (C6F5)2B(CH2CH2CH2)BPin is found to hydrosilylatively reduce amides under mild conditions. Simple tertiary amides can be reduced using Me2EtSiH, whereas tertiary benzamides required a more reactive secondary silane, Et2SiH2, for efficient reduction. The catalytic system described exhibits exceptional chemoselectivity in the reduction of oligoamides and tolerates functionalities which are prone to reduction under similar conditions.
- Peruzzi, Michael T.,Mei, Qiong Qiong,Lee, Stephen J.,Gagné, Michel R.
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supporting information
p. 5855 - 5858
(2018/06/13)
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- Copper-Catalyzed Carbonylative Cross-Coupling of Arylboronic Acids with N-Chloroamines for the Synthesis of Aryl Amides
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A novel copper-catalyzed carbonylative cross-coupling between N-chloroamines and arylboronics acids has been developed. With copper(I) oxide as the catalyst, various desired amide compounds were produced in moderate to good yields. Functional groups such as iodide and alkene are tolerated. Notably, this is the first example of a copper-catalyzed aminocarbonylation with N-chloroamines.
- Yin, Zhiping,Wang, Zechao,Li, Wanfang,Wu, Xiao-Feng
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p. 1769 - 1772
(2017/04/13)
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- Metal–Organic Framework Based on Copper and Carboxylate-Imidazole as Robust and Effective Catalyst in the Oxidative Amidation of Carboxylic Acids and Formamides
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A metal–organic framework (MOF) based on copper and 1,3-bis(carboxymethyl)imidazole (bcmim) was prepared on a gram scale by using a precipitation method at room temperature. The Cu(bcmim)2MOF was shown to be an efficient catalyst for the preparation of amides through an oxidative coupling between carboxylic acids and formamides in the presence of an oxidant, such as tert-butyl hydroperoxide (TBHP). The method for the preparation of the amides is robust regardless of the carboxylic acid and gives good conversions with good selectivity. The heterogeneous catalyst was recovered unaltered after the reaction, was easily separated from the reaction mixture, and subsequently reactivated by suitable treatment. Moreover, the coupling reaction was scaled up to a gram scale, which allowed for the preparation of valuable products, such as fatty acid amides (i.e., 1-palmitoylpiperidine).
- Albert-Soriano, María,Pastor, Isidro M.
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supporting information
p. 5180 - 5188
(2016/10/26)
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- Synthesis of Ag/g-C3N4Composite as Highly Efficient Visible-Light Photocatalyst for Oxidative Amidation of Aromatic Aldehydes
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In this contribution, an Ag/g-C3N4nanocomposite was synthesized and utilized as highly efficient and green photocatalyst for organic reactions under visible light irradiation. A layered, porous g-C3N4was synthes
- Wang, Lingling,Yu, Min,Wu, Chaolong,Deng, Nan,Wang, Chao,Yao, Xiaoquan
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p. 2631 - 2641
(2016/08/31)
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- Palladium nanoparticles immobilized on an amine-functionalized MIL-101(Cr) as a highly active catalyst for oxidative amination of aldehydes
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The present work reports the synthesis of well dispersed palladium nanoparticles immobilized on an amino functionalized nanoscale metal-organic framework MIL-101(Cr), by using a facile polyol method. The resulting Pd/NH2-MIL-101(Cr) nanocomposite is established to be an active heterogeneous catalyst for oxidative amination of aldehydes under solvent free conditions using hydrogen peroxide as an oxidant. The synthesized Pd/NH2-MIL-101(Cr) is characterized by powder X-ray diffraction, X-ray photoelectron spectroscopy, transmission electron microscopy, field emission scanning electron microscopy, Brunauer-Emmett-Teller (BET) surface area analysis, Fourier transform infrared spectroscopy (FT-IR), thermogravimetric analysis (TGA) and atomic absorption spectroscopy (AAS). The catalyst could easily be recovered and recycled without any significant loss of its catalytic activity.
- Saikia, Mrinal,Saikia, Lakshi
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p. 14937 - 14947
(2016/02/19)
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- Chelating Bis(1,2,3-triazol-5-ylidene) Rhodium Complexes: Versatile Catalysts for Hydrosilylation Reactions
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NHC-rhodium complexes (NHC=N-heterocyclic carbenes) have been widely used as efficient catalysts for hydrosilylation reactions. However, the substrates were mostly limited to reactive carbonyl compounds (aldehydes and ketones) or carbon-carbon multiple bonds. Here, we describe the application of newly-developed chelating bis(tzNHC)-rhodium complexes (tz=1,2,3-triazol-5-ylidene) for several reductive transformations. With these catalysts, the formal reductive methylation of amines using carbon dioxide, the hydrosilylation of amides and carboxylic acids, and the reductive alkylation of amines using carboxylic acids have been achieved under mild reaction conditions.
- Nguyen, Thanh V. Q.,Yoo, Woo-Jin,Kobayashi, Shu
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supporting information
p. 452 - 458
(2016/02/12)
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- Iron-catalyzed direct synthesis of amides from methylarenes
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An efficient, green and first catalytic process has been developed for the direct synthesis of amides from readily available petroleum by-products (methylarenes) and amines using an iron catalyst. In this new catalytic reaction, the methyl group of the me
- Srinivas Kotha, Surya,Badigenchala, Sindhura,Sekar, Govindasamy
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p. 1437 - 1445
(2015/05/19)
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- Mild and selective Et2Zn-catalyzed reduction of tertiary amides under Hydrosilylation conditions
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Diethylzinc (Et2Zn) can be used as an efficient and chemoselective catalyst for the reduction of tertiary amides under mild reaction conditions employing cost-effective polymeric silane (PMHS) as the hydride source. Crucial for the catalytic activity was the addition of a substoichiometric amount of lithium chloride to the reaction mixture. A series of amides containing different additional functional groups were reduced to their corresponding amines, and the products were isolated in good-to-excellent yields.
- Kovalenko, Oleksandr O.,Volkov, Alexey,Adolfsson, Hans
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supporting information
p. 446 - 449
(2015/03/05)
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- Catalytic bio-chemo and bio-bio tandem oxidation reactions for amide and carboxylic acid synthesis
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A catalytic toolbox for three different water-based one-pot cascades to convert aryl alcohols to amides and acids and cyclic amines to lactams, involving combination of oxidative enzymes (monoamine oxidase, xanthine dehydrogenase, galactose oxidase and laccase) and chemical oxidants (TBHP or CuI(cat)/H2O2) at mild temperatures, is presented. Mutually compatible conditions were found to afford products in good to excellent yields. This journal is
- Bechi, Beatrice,Herter, Susanne,McKenna, Shane,Riley, Christopher,Leimkühler, Silke,Turner, Nicholas J.,Carnell, Andrew J.
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p. 4524 - 4529
(2014/12/11)
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- Silica nanosphere-supported palladium(II) furfural complex as a highly efficient and recyclable catalyst for oxidative amination of aldehydes
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The present work reports the fabrication of a novel and highly efficient silica nanospheres-based palladium catalyst (SiO2@APTES@Pd-FFR) via immobilization of a palladium complex onto silica nanospheres functionalized with 3-aminopropyltriethoxysilane (APTES), and its catalytic application for the oxidative amination of aldehydes to yield commercially important amides. The structure of the nano-catalyst was confirmed by Solid-state 13C CPMAS and 29Si CPMAS NMR spectroscopy, Brunauer-Emmett-Teller (BET) surface area analysis, Fourier transform infrared spectroscopy (FT-IR), Energy dispersive X-ray fluorescence spectroscopy (ED-XRF), Atomic absorption spectroscopy (AAS), Transmission electron microscopy (TEM) and elemental analysis. The nano-catalyst was found to be highly effective for the oxidative amination of aldehydes using hydrogen peroxide as an environmentally benign oxidant to give amides. The effect of various reaction parameters such as temperature, amount of catalyst, reaction time, type of solvent, oxidant used, substrate to oxidant ratio etc. have been demonstrated to achieve high catalytic efficacy. Moreover, this nanostructured catalyst could be recovered with simplicity and reused for several cycles without any significant loss in its catalytic activity. In addition, the stability of the reused nano-catalyst was proved by FT-IR and HRTEM techniques. It is worth noting that the features of mild reaction conditions, simple work-up procedure, high product yield, no use of toxic organic solvents, high turn-over frequency (TOF), and easy recovery and reusability of the present quasi-homogeneous nano-catalyst make this protocol an attractive alternative to the existing catalytic methods for the oxidative amination of aldehydes to furnish industrially important amides. The Royal Society of Chemistry 2014.
- Sharma,Sharma, Shivani
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p. 1292 - 1304
(2014/01/06)
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- Metal-free one-pot synthesis of amides using graphene oxide as an efficient catalyst
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Graphene oxide (GO), exhibiting a high degree of oxygen functionality and various structural defects, was found to be a highly efficient and cost effective carbocatalyst for the one-pot base-free synthesis of amides from aromatic aldehydes and secondary amine. The chemical and structural features of GO, as probed by FTIR, Raman, XRD and HRTEM analyses, were discussed to understand the catalytic mechanism for the synthesis of amides. The present method obviates the use of transition metal catalysts and needs shorter reaction time. This journal is
- Kumari, Shweta,Shekhar, Amiya,Mungse, Harshal P.,Khatri, Om P.,Pathak, Devendra D.
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p. 41690 - 41695
(2014/12/11)
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- Metal-free one-pot synthesis of amides using graphene oxide as an efficient catalyst
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Graphene oxide (GO), exhibiting a high degree of oxygen functionality and various structural defects, was found to be a highly efficient and cost effective carbocatalyst for the one-pot base-free synthesis of amides from aromatic aldehydes and secondary amine. The chemical and structural features of GO, as probed by FTIR, Raman, XRD and HRTEM analyses, were discussed to understand the catalytic mechanism for the synthesis of amides. The present method obviates the use of transition metal catalysts and needs shorter reaction time. This journal is
- Kumari, Shweta,Shekhar, Amiya,Mungse, Harshal P.,Khatri, Om P.,Pathak, Devendra D.
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p. 41690 - 41695
(2015/05/20)
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- Selectivities in acylation of primary and secondary amine with diacylaminoquinazolinones and diacylanilines
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The diacylaminoquinazolinones are highly selective acylating agents for primary amines in the presence of secondary amines. The chemoselective N-acetylation reagents have been investigated using 2-substituted N,Ndiacylaminoquinazolinones (DAQs) and 2-substitued-N-diacylanilines (DAAs). Determination of the selectivity ratios have been made by comparison of the crude product in each case with authentic samples of the amide products using NMR spectroscopy. The control experiments in which pairs of amines compete for acetyl chloride show some selectivity but not comparable with that of DAQs and DAAs selectivity. When the DAQs, DAAs and acetyl chloride react with mixtures of pyrrolidine and piperidine, they give amides in the corresponding ratios. The DAQs 1 and 2 react entirely with diethylamine without any competitive reaction with diphenylamine. The high level of chemoselectivity has also been observed when the 1 and 2 react exclusively with the ethanolamine without any competitive reaction with diethanolamine. Moreover, 1 and 2 react with succinimide without any competitive reaction with phthalimide.
- Al-Sehemi, Abdullah G.,Al-Amri, Reem S. Abdul-Aziz,Irfan, Ahmad
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p. 1115 - 1121
(2014/10/15)
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- The direct amidation of α-diketones with amines via TBHP-promoted oxidative cleavage of C(sp2)-C(sp2) bonds
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A novel and efficient direct amidation of α-diketones with amines via TBHP-promoted oxidative cleavage of C(sp2)-C(sp2) bonds has been developed. The strategy provides an alternative approach to amides under metal-free conditions.
- Zhao, Qiong,Li, Hongji,Wang, Lei
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supporting information
p. 6772 - 6779
(2013/10/01)
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- Iron-catalysed oxidative amidation of alcohols with amines
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A new iron-catalysed oxidative amidation of differently substituted benzylic alcohols with mono- and di-substituted amines was developed. The Royal Society of Chemistry 2013.
- Gaspa, Silvia,Porcheddu, Andrea,De Luca, Lidia
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supporting information
p. 3803 - 3807
(2013/07/26)
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- Facile and efficient KOH-catalysed reduction of esters and tertiary amides
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Esters and tertiary amides were efficiently reduced to their corresponding alcohols and amines in high yields under mild and environmentally friendly conditions. The presented KOH-catalysed system involves a simple hydrosilylation procedure that is carried out under solvent-free conditions and does not require the use of inert conditions.
- Fernandez-Salas, Jose A.,Manzini, Simone,Nolan, Steven P.
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p. 9758 - 9760
(2013/10/21)
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- Metal-free n-Bu4NI-catalyzed direct synthesis of amides from alcohols and N,N-disubstituted formamides
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A facile and efficient protocol for the synthesis of amides has been developed in the absence of transition metals. The reaction was performed with a catalytic amount of n-Bu4NI and aqueous TBHP as an oxidant. Various alcohols with N,N-disubstituted formamides were examined to furnish the desired products in good yields.
- Li, Huamin,Xie, Jin,Xue, Qicai,Cheng, Yixiang,Zhu, Chengjian
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supporting information
p. 6479 - 6482,4
(2012/12/12)
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- Aerobic oxidative amidation of aromatic and cinnamic aldehydes with secondary amines by CuI/2-pyridonate catalytic system
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A simple and convenient CuI/2-pyridonate catalytic system for the oxidative amidation of aldehydes with secondary amines has been developed. With this system, a variety of useful arylamides have been synthesized in moderate to good yields in the presence of small amount of copper catalyst and the pyridonate ligand, generating only water as a coproduct. Synthesis of cinnamamides was also achieved by the reactions of cinnamaldehydes with secondary amines in moderate yields. Air was successfully employed as a green oxidant in this catalytic system, achieving a safe and atom-efficient system for the synthesis of amides.
- Zhu, Mingwen,Fujita, Ken-Ichi,Yamaguchi, Ryohei
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p. 9102 - 9109,8
(2012/12/11)
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- Gold-catalyzed amide synthesis from aldehydes and amines in aqueous medium
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An efficient gold-catalyzed amide synthesis from aldehydes and amines in aqueous medium under mild reaction conditions has been developed.
- Li, Gai-Li,Kung, Karen Ka-Yan,Wong, Man-Kin
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supporting information; experimental part
p. 4112 - 4114
(2012/06/16)
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- Zinc-catalyzed reduction of amides: Unprecedented selectivity and functional group tolerance
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(Chemical Equation Presented) A novel zinc-catalyzed reduction of tertiary amides was developed. This system shows remarkable chemoselectivity and substrate scope tolerating ester, ether, nitro, cyano, azo, and keto substituents. Copyright
- Das, Shoubhik,Addis, Daniele,Zhou, Shaolin,Junge, Kathrin,Beller, Matthias
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supporting information; experimental part
p. 1770 - 1771
(2010/04/25)
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- Conformational study on 2-acyl-1-alkylidene-1,2,3,4-tetrahydroisoquinolines
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The title enamide compounds can exist in either a sickle or U conformation with respect to the C=C-N-C=C conjugated moiety, where the sickle form is greatly favored. The sickle rotamers are chiral in nature in both solution and crystalline states, as prov
- Kitamura, Masato,Tsukamoto, Masaki,Takaya, Hidemasa,Noyori, Ryoji
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p. 1695 - 1700
(2007/10/03)
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