Asymmetric Direct Amide Synthesis by Kinetic Amine Resolution: A Chiral Bifunctional Aminoboronic Acid Catalyzed Reaction between a Racemic Amine and an Achiral Carboxylic Acid

Abstract: The formation of amide bonds by direct reaction of amines with carboxylic acids by thermal [1, 2] or catalytic methods [2][3][4][5] is generally a high temperature process. There have been no reports to date of any reactions that involve asymmetric induction during direct amide formation, with the exception of an enzyme-catalyzed process.[6] Lower temperatures are often preferred for any reaction as it can reduce the amount of reagent, reactant, or thermal product degradation. A more important consideration i… Show more

“…[2] In fact, a study carried out in 1999 showed that about 25 % of known pharmaceuticals contained at least one amide bond. [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. The significance and limitations of catalytic approaches to amide bond formation [4a] and to condensations in general [4b] have been recently discussed.…”

“…[5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature.…”

“…The significance and limitations of catalytic approaches to amide bond formation [4a] and to condensations in general [4b] have been recently discussed.In this respect, recent studies from different research groups demonstrated that substoichiometric amounts of boronic acids can efficiently promote direct amide bond formation, provided that water is removed from the reaction mixture (Scheme 1). [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. [8a] It was proposed that these reactions proceed via formation of a mono- [5a] or diacyloxyboronate species, [7d] which are activated acyl donors capable of reacting with the amine to form the amide product.…”

Mechanistic Insights into Direct Amide Bond Formation Catalyzed by Boronic Acids: Halogens as Lewis Bases

“…[2] In fact, a study carried out in 1999 showed that about 25 % of known pharmaceuticals contained at least one amide bond. [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. The significance and limitations of catalytic approaches to amide bond formation [4a] and to condensations in general [4b] have been recently discussed.…”

“…[5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature.…”

“…The significance and limitations of catalytic approaches to amide bond formation [4a] and to condensations in general [4b] have been recently discussed.In this respect, recent studies from different research groups demonstrated that substoichiometric amounts of boronic acids can efficiently promote direct amide bond formation, provided that water is removed from the reaction mixture (Scheme 1). [5][6][7][8] In particular, Hall and co-workers found that using ortho-halophenyl boronic acids as catalysts, the coupling reactions can be carried out at room temperature. [8a] It was proposed that these reactions proceed via formation of a mono- [5a] or diacyloxyboronate species, [7d] which are activated acyl donors capable of reacting with the amine to form the amide product.…”

Mechanistic Insights into Direct Amide Bond Formation Catalyzed by Boronic Acids: Halogens as Lewis Bases

“…reported the use of thiourea catalyst 74 combined with DMAP as cocatalyst which allowed various primary benzylic amines to be resolved with selectivity factors of up to 24 through benzoylation with benzoic anhydride (Scheme ) 208. In addition, the KR of primary amines based on N ‐acylation with a carboxylic acid such as benzoic acid was developed by Whiting et al 209. This reaction was catalyzed by a chiral bifunctional aminoboronic acid in fluorobenzene, leading to the corresponding amides in low to moderate enantioselectivities (≤41% ee ).…”

Catalytic Non‐Enzymatic Kinetic Resolution

“…The use of Lewis acids as catalysts for direct amidation is usually related to boron- and transition-metal-containing compounds. 40 41 42 43 44 45 Group IV metal complexes are well represented in the latter category, 46–50 and their hydrolytic instability typically requires the use of water scavenging techniques such as azeotropic distillation to prevent deactivation of the metal catalyst by the water formed in the dehydrative reaction. For protocols carried out at temperatures below ca.…”

Catalytic Dehydrative Transformations Mediated by Moisture-Tolerant Zirconocene Triflate