2665-73-8Relevant academic research and scientific papers
An efficient, eco-friendly and sustainable tandem oxidative amidation of alcohols with amines catalyzed by heteropolyanion-based ionic liquids via a bifunctional catalysis process
Fu, Renzhong,Yang, Yang,Feng, Wei,Ge, Qiuxia,Feng, Yan,Zeng, Xiaojun,Chai, Wen,Yi, Jun,Yuan, Rongxin
, p. 8319 - 8326 (2016/12/02)
An efficient, eco-friendly and sustainable method for the tandem oxidative amidation of alcohols with amines has been reported. Using heteropolyanion-based ionic liquids as the catalyst and tert-butyl hydroperoxide as the oxidant, this amidation reaction is operationally straightforward and provides a series of primary, secondary and tertiary amides derivatives in moderate to good yields. Solvent-free media, microwave-promoted conditions and reusability of catalysts are the main highlights. Further, the proposed bifunctional catalysis mechanistic pathway has been briefly investigated in this report.
TfOH catalyzed One-Pot Schmidt–Ritter reaction for the synthesis of amides through N-acylimides
Singh, Garima,Dada, Ravikrishna,Yaragorla, Srinivasarao
supporting information, p. 4424 - 4427 (2016/09/13)
A One-Pot tandem Schmidt–Ritter process for the synthesis of amides has been developed using the super acid as catalyst. The in situ generated aryl/aliphatic nitriles from the reaction of aldehydes and sodium azide in the presence of TfOH and AcOH (Schmidt reaction) react with suitable alcohol (Ritter reaction) to give the amides. For the first time we observed that during the Schmidt process N-acylimides were generated along with nitriles, interestingly these N-acylimides also participated in the Ritter reaction.
Direct oxidative amidation of aldehydes with amines catalyzed by heteropolyanion-based ionic liquids under solvent-free conditions via a dual-catalysis process
Fu, Renzhong,Yang, Yang,Zhang, Jin,Shao, Jintao,Xia, Xuming,Ma, Yunsheng,Yuan, Rongxin
, p. 1784 - 1793 (2016/02/10)
A simple and efficient procedure for the synthesis of amides directly from aldehydes and amines catalyzed by heteropolyanion-based ionic liquids under solvent-free conditions has been reported. The practical protocol was found to tolerate a wide range of substrates with different functional groups. Moderate to excellent yields, solvent-free media, and operational simplicity are the main highlights. The proposed dual-catalysis mechanistic pathway was briefly investigated. Furthermore, the heteropolyanion-based ionic liquids were easily reusable for this oxidative amidation.
Synthesis, X-ray crystallography, and reactions of N-acyl and N-carbamoyl succinimides
Goodman, Cassie A.,Eagles, Joel B.,Rudahindwa, Leandre,Hamaker, Christopher G.,Hitchcock, Shawn R.
, p. 2155 - 2164 (2013/07/25)
A collection of N-acyl and N-carbamoyl succinimides were prepared by acylation of succinimide with acyl chlorides or by ethylene dichloride (EDC) coupling of carboxylic acids. The x-ray crystal structures of N-benzoyl and N-p-nitrobenzoyl succinimides were determined. The N-acyl succinimides were effective in acylating primary amines, a secondary amine, and an aromatic amine. Copyright
Benzamide therapeutics for the treatment of inflammatory bowel disease
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, (2008/06/13)
Benzamides are disclosed to be useful for treating and preventing inflammatory bowel disease.
