- Amide derivatives of DMABN: A new class of dual fluorescent compounds
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Derivatives of DMABN are described, where the cyano group is replaced by an amide function with different acceptor strengths. This leads to a consistent variation of the dual fluorescence observed, describable within the established TICT model. Time resolved experiments give evidence of an additional complication with respect to DMABN due to the low-lying nπ* state of the amides which induces a fluorescence quenching channel. The presence of various conformers leads to the observed nonexponential fluorescence decay traces.
- Braun,Rettig,Delmond,Letard,Lapouyade
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Read Online
- POCl3 promoted metal-free synthesis of tertiary amides by coupling of carboxylic acids and N,N-disubstituted formamides
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Herein we report a robust and synthetically useful catalyst-free amination methodology by the coupling of carboxylic acids and N-substituted formamides using POCl3 as a promoter. Versatile amides with a wide array of substituent groups were prepared within only 1 h in good to excellent yields. And even multi-substituted aromatic carboxylic acids could give the desired products with satisfactory results.
- Bi, Xiaojing,Li, Junchen,Shi, Enxue,Li, Yu,Liu, Ying,Wang, Hongmei,Xiao, Junhua
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supporting information
p. 236 - 240
(2019/04/25)
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- Direct Synthesis of Amides from Oxidative Coupling of Benzyl Alcohols and N-substituted Formamides Using a Co–Al Based Heterogeneous Catalyst
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Present work reports the direct synthesis of amides from oxidative coupling of benzyl alcohols with various N-substituted formamides using a cobalt-hydrotalcite (Co-HT) derived catalyst. The Co-HT derived catalysts (Co-HT-2, Co-HT-3 and Co-HT-4 having Co2+/Al3+ molar ratio in the catalyst preparation mixture as 1/1, 2/1 and 3/1 respectively) were prepare following a co-precipitation method and characterized well by powder XRD, XPS, FEG-SEM, EDS, DTG–TGA, FT-IR and N2 physisorption measurements. A range of functional amides were obtained in good yields from oxidative coupling of various substituted benzyl alcohols and a range of N-substituted formamides using Co-HT-3 catalyst and oxidant TBHP. Mechanistic investigation suggests that the amidation reaction is associated with the formation and coupling of radical species. Furthermore, the Co-HT derived catalyst was easily recoverable and recyclable with retained high catalytic activity towards the oxidative coupling of benzyl alcohol with DMF. Graphical Abstract: [Figure not available: see fulltext.].
- Subhedar, Dnyaneshwar D.,Gupta, Shyam Sunder R.,Bhanage, Bhalchandra M.
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p. 3102 - 3111
(2018/08/21)
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- Oxidative amidation of benzaldehydes and benzylamines with: N -substituted formamides over a Co/Al hydrotalcite-derived catalyst
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The present work describes a highly efficient synthetic strategy for amides via oxidative coupling of benzaldehydes or benzylamines with N-substituted formamides using a heterogeneous Co/Al hydrotalcite-derived catalyst in the presence of TBHP. A series of Co/Al hydrotalcite-derived catalysts (Cat-2, Cat-3, and Cat-4 with the Co2+/Al3+ molar ratio in the synthesis mixture as 1/1, 2/1 and 3/1) have been prepared by a simple co-precipitation method and characterized using powder XRD, XPS, FEG-SEM, EDS, FT-IR, DTG-TGA and N2 physical adsorption techniques. Among the as-prepared catalysts, Cat-3 exhibited excellent catalytic activity towards the direct amidation of benzaldehydes as well as benzylamines bearing various substituents into the corresponding amides at 100 °C using TBHP as an oxidant. The mechanistic investigation of the amidation reaction revealed that the reaction follows a radical pathway. Furthermore, the catalyst is easily separable and recyclable without considerable loss in catalytic activity.
- Gupta, Shyam Sunder R.,Nakhate, Akhil V.,Rasal, Kalidas B.,Deshmukh, Gunjan P.,Mannepalli, Lakshmi Kantam
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p. 15268 - 15276
(2017/12/15)
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- Synthesis method of amide aryl compound
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The invention relates to a synthesis method of an amide aryl compounds. According to the method, Ru-(p-cymene) C12 is taken as a catalyst, K2S2O8 is taken as an oxidizing agent, Xantphos is taken as a ligand, one reactant (N, N-dialkyl formamide) is taken
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Paragraph 0065; 0066; 0067; 0068; 0069
(2017/04/19)
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- Ru-catalyzed direct amidation of carboxylic acids with N-substituted formamides
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The direct amidation of carboxylic acids with N-substituted formamides has been accomplished via ruthenium catalysis. In the presence of ruthenium catalyst, a versatile range of carboxylic acids and N-substituted formamides undergoes amidation reaction to produce synthetically useful amides in good yields. C[dbnd]O in amide product came from benzoic acid but not N-substituted formamides, and which was confirmed by Isotope experiment.
- Bi, Xiaojing,Li, Junchen,Shi, Enxue,Wang, Hongmei,Gao, Runli,Xiao, Junhua
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p. 8210 - 8214
(2016/11/23)
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- Method for synthesizing phosphorus-oxychloride-promoted amide compound
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The invention relates to a method for synthesizing a phosphorus-oxychloride-promoted amide compound. The synthesizing method includes the steps that carboxylic acid serves as one reactant, another reactant (N,N-dialkyl methanamide) serves as a solvent, one equivalent of phosphorus oxychloride is added, and the amide compound is prepared. The reaction substrates are low in price and easy to get, the nature is stable, toxicity is small, the reaction speed is high, conditions are moderate, and the reaction substrates can be widely applied to substrates with different functional groups. The efficiently-constructed amide compound is an important molecular skeleton for many medicines, bioactive molecules and natural products, and the synthesizing method is a widely-applicable preparing method for synthesizing the compound.
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Paragraph 0070; 0071; 0072; 0073; 0074
(2017/01/26)
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- Potassium tert-Butoxide-Mediated Amine Acyl Exchange Reaction of N,N-Disubstituted Formamides with Aromatic Carbonyl Derivatives via Sequential C-N Bond Cleavage/Formation: An Approach to Aromatic Amides
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A novel potassium tert-butoxide-mediated amine acyl exchange of N,N-disubstituted formamides with aromatic carbonyl derivatives in a sequential C-N bond cleavage/formation process leading to aromatic amides is described. This methodology tolerates a wide range of aromatic carbonyl compounds, including aromatic aldehydes, acyl chlorides, unactivated esters, and acid anhydrides. The usage of inexpensive and readily available reagents, broad substrate scope, and the simple, mild (50°C) and transition metal-free conditions make this protocol very practical. In addition, a plausible reaction mechanism is proposed on the basis of experimental observations.
- Zhang, Ming-Zhong,Guo, Qing-Hu,Sheng, Wen-Bing,Guo, Can-Cheng
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p. 2855 - 2861
(2015/09/28)
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- An effective synthesis of N,N-dimethylamides from carboxylic acids and a new route from N,N-dimethylamides to 1,2-diaryl-1,2-diketones
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Carboxylic acids were heated at 150 °C in DMF in the presence of 1.25 equiv of thionyl chloride to give corresponding N,N-dimethylamides in good yields. Tandem chlorination and amidation reactions occurred in the one-pot procedure. Dicarboxylic acids needed prolonged reaction time to produce bisamides in good yields. Some benzamides were efficiently converted into corresponding 1,2-diaryl-1,2-diketones (benzils) under acyloin condensation conditions in the presence of 4,4′-di-tert-butylbiphenyl (DBB) in THF. Ultrasonic irradiation effectively accelerates the reaction, but it is not critical. However, the presence of DBB is fatal to the reaction. Although a few synthetic methods for benzils from benzoic acids have been reported so far, this method is one of the most convenient and highly reproducible procedures.
- Kumagai, Takashi,Anki, Tomohiro,Ebi, Takahiro,Konishi, Akihito,Matsumoto, Kouzou,Kurata, Hiroyuki,Kubo, Takashi,Katsumoto, Kenta,Kitamura, Chitoshi,Kawase, Takeshi
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experimental part
p. 8968 - 8973
(2011/01/04)
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- Practical access to amines by platinum-catalyzed reduction of carboxamides with hydrosilanes: Synergy of dual Si-H groups leads to high efficiency and selectivity
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The synergetic effect of two Si-H groups leads to efficient reduction of carboxamides to amines by platinum catalysts under mild conditions. The rate of the reaction is dependent on the distance of two Si-H groups; 1,1,3,3-tetramethyldisiloxane (TMDS) and 1,2-bis(dimethylsilyl)benzene are found to be an effective reducing reagent. The reduction of amides having other reducible functional groups such as NO2, CO2R, CN, CdC, Cl, and Br moieties proceeds with these groups remaining intact, providing a reliable method for the access to functionalized amine derivatives. The platinum-catalyzed reduction of amides with polymethylhydrosiloxane (PMHS) also proceeds under mild conditions. The reaction is accompanied by automatic removal of both platinum and silicon wastes as insoluble silicone resin, and the product is obtained by simple extraction. A mechanism involving double oxidative addition of TMDS to a platinum center is discussed.
- Hanada, Shiori,Tsutsumi, Emi,Motoyama, Yukihiro,Nagashima, Hideo
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supporting information; experimental part
p. 15032 - 15040
(2010/01/29)
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- Dual Si-H effects in platinum-catalyzed silane reduction of carboxamides leading to a practical synthetic process of tertiary-amines involving self-encapsulation of the catalyst species into the insoluble silicone resin formed
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Combination of commercially available platinum catalysts with siloxanes containing more than two Si-H groups is found to be an efficient catalyst system for the reduction of carboxamides to amines. In particular, facile removal of silicon and platinum residues from the product can be achieved by the use of polymethylhydrosiloxanes as reducing reagents.
- Hanada, Shiori,Motoyama, Yukihiro,Nagashima, Hideo
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p. 6173 - 6177
(2007/10/03)
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- ELECTROPHILIC AMINATION OF ACYL ANION EQUIVALENTS: MILD OXIDATION OF ALDEHYDES TO AMIDES VIA O-(TRIMETHYLSILYL)ALDEHYDE CYANOHYDRIN ANIONS
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The O-(trimethylsilyl)aldehyde cyanohydrin anions 4a-p(1-)*Li(1+) react with 5 to the amines 6.This electrophilic amination corresponds to a mild and specific oxidation of the aldehydes 1a-p to the amides 7a-p.
- Boche, Gernot,Bosold, Ferdinand,Niessner, Manfred
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p. 3255 - 3256
(2007/10/02)
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