6830-82-6Relevant articles and documents
Some Unusual Reaction of Weinreb Amides
Keck, Gary E.,McHardy, Stanton F.,Murry, Jerry A.
, p. 6215 - 6218 (1993)
Certain N-methoxy-N-methyl amides yield products of formal reduction and/or rearrangement upon exposure to tert-butyldimethylsilyl triflate and collidine or triethylamine.
Direct synthesis of amides from nonactivated carboxylic acids using urea as nitrogen source and Mg(NO3)2or imidazole as catalysts
Blacker, A. John,Chhatwal, A. Rosie,Lomax, Helen V.,Marcé, Patricia,Williams, Jonathan M. J.
, p. 5808 - 5818 (2020/06/21)
A new method for the direct synthesis of primary and secondary amides from carboxylic acids is described using Mg(NO3)2·6H2O or imidazole as a low-cost and readily available catalyst, and urea as a stable, and easy to manipulate nitrogen source. This methodology is particularly useful for the direct synthesis of primary and methyl amides avoiding the use of ammonia and methylamine gas which can be tedious to manipulate. Furthermore, the transformation does not require the employment of coupling or activating agents which are commonly required.
Rh(III)-Catalyzed Distal C-H Alkenylation of Weakly Coordinating Acetamides Via Desilylation Pathway
Ramesh, Vinay Bapu,Muniraj, Nachimuthu,Prabhu, Kandikere Ramaiah
supporting information, p. 3683 - 3688 (2019/07/12)
Rh(III)-Catalyzed distal ortho-C?H alkenylation of arylacetamides have been reported employing acetamide, a weak coordinating group, as a directing group. This challenging C?H alkenylation of arylacetamides has been achieved by using arylalkynyl silanes as a surrogate for terminal alkynes under redox neutral process through desilylation pathway. The control experiments suggest that the in situ generatedRh-species is likely to be Lewis acidic, which is playing a vital role in the desilylation step. (Figure presented.).