- Method for synthesizing amide derivative under catalysis of vanadium
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The invention discloses a method for synthesizing an amide derivative under the catalysis of vanadium, which comprises the following step of: by using a nitro aromatic compound and an ester compound as raw materials, a vanadium compound as a catalyst and magnesium chips as a reducing agent, carrying out amidation reaction in an organic solvent to obtain the amide derivative. The method has the advantages that (1) the nitro aromatic compound which is good in stability, low in price and easy to obtain is used as a nitrogen source; (2) the used catalyst is cheap, easy to obtain and low in toxicity; and (3) the method has good substrate applicability, and is suitable for aromatic nitro compounds, fatty esters and aryl esters containing different substituents.
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Paragraph 0013-0015; 0028-0030
(2021/02/10)
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- Metal-free transamidation of benzoylpyrrolidin-2-one and amines under aqueous conditions
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N-Acyl lactam amides, such as benzoylpyrrolidin-2-one, benzoylpiperidin-2-one, and benzoylazepan-2-one reacted with amines in the presence of DTBP and TBAI to afford the transamidated products in good yields. The reactions were conducted under aqueous conditions and good functional group tolerance was achieved. Both aliphatic and aromatic primary amines displayed good activity under metal-free conditions. A radical reaction pathway is proposed.
- Joseph, Devaneyan,Lee, Sunwoo,Park, Myeong Seong
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supporting information
p. 6227 - 6232
(2021/07/28)
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- Ligand-Enabled Gold-Catalyzed C(sp2)-N Cross-Coupling Reactions of Aryl Iodides with Amines
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The first example of ancillary (P,N)-ligand-enabled gold-catalyzed C-N cross-coupling reactions of aryl iodides with amines is reported. The high generality of the reaction in de novo synthesis, late-stage modifications, and cascade processes to access functionalized indolinones and carbazoles underscores the synthetic potential of the presented strategy. Monitoring the reaction with ESI-HRMS and NMR provided strong evidence for the in situ formation of putative high valent Au(III) intermediates.
- Akram, Manjur O.,Das, Avishek,Chakrabarty, Indradweep,Patil, Nitin T.
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supporting information
p. 8101 - 8105
(2019/10/11)
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- Highly Chemoselective, Transition-Metal-Free Transamidation of Unactivated Amides and Direct Amidation of Alkyl Esters by N-C/O-C Cleavage
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The amide bond is one of the most fundamental functional groups in chemistry and biology and plays a central role in numerous processes harnessed to streamline the synthesis of key pharmaceutical and industrial molecules. Although the synthesis of amides is one of the most frequently performed reactions by academic and industrial scientists, the direct transamidation of tertiary amides is challenging due to unfavorable kinetic and thermodynamic contributions of the process. Herein, we report the first general, mild, and highly chemoselective method for transamidation of unactivated tertiary amides by a direct acyl N-C bond cleavage with non-nucleophilic amines. This operationally simple method is performed in the absence of transition metals and operates under unusually mild reaction conditions. In this context, we further describe the direct amidation of abundant alkyl esters to afford amide bonds with exquisite selectivity by acyl C-O bond cleavage. The utility of this process is showcased by a broad scope of the method, including various sensitive functional groups, late-stage modification, and the synthesis of drug molecules (>80 examples). Remarkable selectivity toward different functional groups and within different amide and ester electrophiles that is not feasible using existing methods was observed. Extensive experimental and computational studies were conducted to provide insight into the mechanism and the origins of high selectivity. We further present a series of guidelines to predict the reactivity of amides and esters in the synthesis of valuable amide bonds by this user-friendly process. In light of the importance of the amide bond in organic synthesis and major practical advantages of this method, the study opens up new opportunities in the synthesis of pivotal amide bonds in a broad range of chemical contexts.
- Li, Guangchen,Ji, Chong-Lei,Hong, Xin,Szostak, Michal
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supporting information
p. 11161 - 11172
(2019/08/07)
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- Palladium(II)-Catalyzed Oxidative Homo- and Cross-Coupling of Aryl ortho -sp2 C-H Bonds of Anilides at Room Temperature
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The preparation of secondary 2,2'-bisanilides has been successfully achieved through an oxidative coupling of aryl ortho-sp2 C-H bonds of anilides in the presence of catalytic Pd(OAc)2 and K2S2O8 as an oxidant in MsOH/CF3CO2H (TFA) at room temperature (25 °C). The aromatic rings of anilides substituted by various electron-donating or electron-withdrawing groups are tolerant in these coupling reactions.
- Mei, Chong,Lu, Wenjun
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p. 4812 - 4823
(2018/04/26)
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- Nickel-catalyzed methylation of aryl halides/tosylates with methyl tosylate
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This work describes the cross-electrophile methylation of aryl bromides and aryl tosylates with methyl tosylate. The mild reaction conditions allow effective methylation of a wide set of heteroaryl electrophiles and dimethylation of dibromoarenes.
- Wang, Jiawang,Zhao, Jianhong,Gong, Hegui
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supporting information
p. 10180 - 10183
(2017/09/23)
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- Synthesis of secondary amides from N-Substituted amidines by tandem oxidative rearrangement and isocyanate elimination
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In this work an efficient tandem process transforming N-substituted amidines into secondary amides has been described. The process involves N-acylurea formation by reaction of the substrate with bis(acyloxy)(phenyl)-λ3-iodane followed by isocyanate elimination. The periodinane reagents are obtained from the commercially available phenyl-iodine(III) diacetate [PhI(OAc)2, (PIDA)] by ligand exchange with carboxylic acids. The N-substituted amidine substrates are easily synthesized from readily available nitriles. The method is applicable for secondary amide synthesis, based on both aliphatic and (hetero)aromatic amines, including challenging amides consisting of sterically hindered acids and amines. Moreover, the protocol allows one to combine steric bulk with electron deficiency in the target amides (aniline based). Such compounds are difficult to synthesize efficiently based on classical condensation reactions involving carboxylic acids and amines. Overall, the synthetic protocol transforms a nitrile into a secondary amide in both aliphatic and (hetero)aromatic systems.
- Debnath, Pradip,Baeten, Mattijs,Lefvre, Nicolas,Van Daele, Stijn,Maes, Bert U. W.
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supporting information
p. 197 - 209
(2015/03/03)
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- Reductive acylation of nitroarenes to anilides by sodium sulfite in carboxylic acids
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A facile and efficient reductive acylation of aromatic nitro compounds to corresponding anilides using a sodium sulfite-carboxylic acid system for the first time has been reported. The sodium sulfite reagent provides the colorless reductant in combination with stoichiometric amounts of carboxylic acid and enables the formation of anilides from nitroarenes without any additives in good to excellent yields with high purities and simple work-up. Furthermore, this protocol provides a novel and complementary access to some industrially important chemicals in kilogram scale under mild conditions.
- Ghaffarzadeh, Mohammad,Akhavan, Pegah
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supporting information
p. 1417 - 1419
(2016/09/28)
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- Microwave-assisted heteropolyanion-based ionic liquids catalyzed transamidation of non-activated carboxamides with amines under solvent-free conditions
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An environmentally benign and highly efficient protocol for the transamidation of non-activated carboxamides with amines using heteropolyanion-based ionic liquids as catalysts under microwave-assisted and solvent-free conditions has been developed. As evaluated by the reactions of a structurally diverse set of amides and amines, the scope and utility of the transamidation proved to be quite general. Operational simplicity, solvent-free media, the potential reusability of catalysts and wide functional group tolerance are attractive features. This method provides a much improved protocol over the existing methods.
- Fu, Renzhong,Yang, Yang,Chen, Zhikai,Lai, Wenchen,Ma, Yongfeng,Wang, Quan,Yuan, Rongxin
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p. 9492 - 9499
(2015/03/04)
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- Tert-butoxide-assisted amidation of esters under green conditions
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Efficient and green amidation reactions are of great importance. In this work, we demonstrate the tert-butoxide-assisted amidation of esters with amines under ambient conditions. Aliphatic and/or aromatic esters were converted into the corresponding amides under mild conditions in good to excellent yields. It is noteworthy that the reaction is highly efficient, rapid, versatile, green and economical, and will find great practical application in organic synthesis, biochemistry, and industrial chemistry. Georg Thieme Verlag Stuttgart. New York.
- Kim, Bo Ram,Lee, Hyung-Geun,Kang, Seung-Beom,Sung, Gi Hyeon,Kim, Jeum-Jong,Park, Jong Keun,Lee, Sang-Gyeong,Yoon, Yong-Jin
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experimental part
p. 42 - 50
(2012/03/26)
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- Infrared spectra of N-aryl substituted amides 2/4-XC6H 4NHCOR (R = H, CH3-iXi, C6H 5 or C6H5Cl; X = H, Cl or CH3 and i = 0, 1, 2 or 3)
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Several N-(aryl)-substituted amides of the general formula, 2/4-XC 6H4NHCOR (where X = H, Cl or CH3 and R = H, CH3, CH2CH3, CH(CH3)2, C(CH3)3, C6H5 or C6H 5Cl) are prepared, characterised and their infrared spectra measured in the solid state and analysed. Generally chloro substitution in the side chain increases the C=O absorptions, while that of methyl groups lower the wave numbers. Amides with trimethyl substituted side chains absorb at higher wavenumbers. But the N-H and C-N stretching vibrations do not show particular trends on side chain substitution. This may be due to the fact that the spectra were recorded in the solid state and the compounds may crystallise in different forms in the solid state. The intercorrelations of C=O and N-H absorption frequencies of all the amides have been made. The correlations are reasonably linear with some exceptions for the reasons stated above.
- Gowda, B. Thimme,Jyothi,Jayalakshmi,Damodara
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p. 564 - 568
(2007/10/03)
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- 2-IMINOXETANES FROM KETENIMINE-ALDEHYDE CYCLOADDITIONS. PART 1: SYNTHESIS AND CONTROLLED RING OPENING OF 2-N-p-TOLYLIMINO-3,3-DIMETHYL-4-PHENYLOXETANE
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Regiospecific cycloaddition of benzaldehyde to dimethylketene - N-p-tolylimine, catalyzed by lanthanide shift reagents, afforded the corresponding 2-iminoxetane.Controlled ring opening showed the oxetane to be a versatile building block for the synthesis of the corresponding acyclic -aminoalcohol, β-keto and β-hydroxyamide.In addition isomerization produced the corresponding 2-azetidinone (β-lactam).
- Barbaro, Gaetano,Battaglia, Arturo,Giorgianni, Patrizia
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p. 2995 - 2998
(2007/10/02)
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- Aluminum Chloride Catalyzed Oligomerization of Ketene Imines and Incorporation of Carbon Dioxide in an Open-Chain Dimer
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Aluminum trichloride and diethylaluminum chloride induce cyclodimerization and cyclotrimerization of three C,C-dimethylketene N-arylimines to quinazoline, azetidine, and triazine derivatives.The product distribution depends on the catalyst, the molar rati
- Dondoni, Alessandro,Barbaro, Gaetano,Battaglia, Arturo,Bertolasi, Valerio,Giorgianni, Patrizia
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p. 2200 - 2204
(2007/10/02)
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