Add to ORKGThe amide function is ubiquitous in natural compounds as well as in man-made molecules and materials. It is generally very stable and poorly reactive owing to its resonance-stabilized C–N group that imparts a planar geometry to amides. In contrast, carboxylic esters are generally reactive under a variety of mild conditions; therefore, it is not surprising that a number of direct methods are available to the chemist for converting esters into amides (amino-de-alkoxylation reaction) but very few for achieving the opposite transformation. Recently, Professors Neil Garg and Ken Houk from the University of California, Los Angeles (UCLA, USA) reported in Nature a groundbreaking method for converting amides into esters with a high degr...
Amide and ester bonds are among the most important functional groups in chemistry and biology. It is...
This dissertation describes the development of nickel-catalyzed arylations of amides via amide C–N b...
Nickel catalysis has shown remarkable potential in amide C–N bond activation and functionaliza...
The amide function is ubiquitous in natural compounds as well as in man-made molecules and material...
Amides are common functional groups that have been studied for more than a century. They are the key...
Recent studies have demonstrated that amides can be used in nickel-catalyzed reactions that lead to ...
The amide bond represents one of the most important functional motifs in chemistry and biology. Howe...
In this study we examined Ester to Amide exchange reactions. The optimum conditions of these reactio...
Amide bond formation and transition metal-catalyzed cross-coupling are two of the most frequently us...
Amide and ester bonds are ubiquitous in organic synthesis, polymers, and drug discovery; therefore t...
This presentation will describe my scientific journey from graduate school to industry. My doctoral ...
The prevalence of amides in biological systems and chemical fields such as polymers, materials and n...
DFT calculations are used to address the mechanism of Ni-catalyzed esterification of aryl and alkyl ...
It is textbook knowledge that carboxamides benefit from increased stabilisation of the electrophilic...
International audienceNitrogen containing molecules are essential for life. They are also key produc...
Amide and ester bonds are among the most important functional groups in chemistry and biology. It is...
This dissertation describes the development of nickel-catalyzed arylations of amides via amide C–N b...
Nickel catalysis has shown remarkable potential in amide C–N bond activation and functionaliza...
The amide function is ubiquitous in natural compounds as well as in man-made molecules and material...
Amides are common functional groups that have been studied for more than a century. They are the key...
Recent studies have demonstrated that amides can be used in nickel-catalyzed reactions that lead to ...
The amide bond represents one of the most important functional motifs in chemistry and biology. Howe...
In this study we examined Ester to Amide exchange reactions. The optimum conditions of these reactio...
Amide bond formation and transition metal-catalyzed cross-coupling are two of the most frequently us...
Amide and ester bonds are ubiquitous in organic synthesis, polymers, and drug discovery; therefore t...
This presentation will describe my scientific journey from graduate school to industry. My doctoral ...
The prevalence of amides in biological systems and chemical fields such as polymers, materials and n...
DFT calculations are used to address the mechanism of Ni-catalyzed esterification of aryl and alkyl ...
It is textbook knowledge that carboxamides benefit from increased stabilisation of the electrophilic...
International audienceNitrogen containing molecules are essential for life. They are also key produc...
Amide and ester bonds are among the most important functional groups in chemistry and biology. It is...
This dissertation describes the development of nickel-catalyzed arylations of amides via amide C–N b...
Nickel catalysis has shown remarkable potential in amide C–N bond activation and functionaliza...