TheBeckmann Reactions: Rearrangements, Elimination–Additions, Fragmentations, and Rearrangement–Cyclizations

Abstract: The Beckmann rearrangement, the acid‐mediated isomerization of oximes to amides, was discovered by Beckmann in 1886. As one of the oldest and most familiar transformations in organic chemistry, it has been reviewed several times. What has become known as the Beckmann fragmentation was in fact first observed by Wallach in 1889 but was not developed extensively until the 1960s. It has been referred to by several names over the years and has also been reviewed. The rearrangemen… Show more

“…However, a very few apparent exceptions have been documented under certain reaction conditions (8,13). If a syn-migration product is formed, it has been assumed that isomerization of the oxime occurs before rearrangement (6)(7)(8)13). However, such isomerization of the oximes does not occur in the present case.…”

“…It is generally accepted that the Beckmann rearrangement of ketoximes is stereospecific, that N-O bond cleavage occurs with simultaneous migration (e.g., in the cases of O-tosyl (Ts)-phenyl-2-propanone oxime derivatives) (10)(11)(12), and that the relevant C-C bond anti to the leaving group on nitrogen atom migrates (i.e., anti-migration) occurs to maximize antiperiplanar electron delocalization of the C-C σ orbital to the antibonding σ* orbital of the N-O bond (Fig. 2B) (6,7,(10)(11)(12). However, a very few apparent exceptions have been documented under certain reaction conditions (8,13).…”

Stereochemical evidence for stabilization of a nitrogen cation by neighboring chlorine or bromine

“…However, a very few apparent exceptions have been documented under certain reaction conditions (8,13). If a syn-migration product is formed, it has been assumed that isomerization of the oxime occurs before rearrangement (6)(7)(8)13). However, such isomerization of the oximes does not occur in the present case.…”

“…It is generally accepted that the Beckmann rearrangement of ketoximes is stereospecific, that N-O bond cleavage occurs with simultaneous migration (e.g., in the cases of O-tosyl (Ts)-phenyl-2-propanone oxime derivatives) (10)(11)(12), and that the relevant C-C bond anti to the leaving group on nitrogen atom migrates (i.e., anti-migration) occurs to maximize antiperiplanar electron delocalization of the C-C σ orbital to the antibonding σ* orbital of the N-O bond (Fig. 2B) (6,7,(10)(11)(12). However, a very few apparent exceptions have been documented under certain reaction conditions (8,13).…”

Stereochemical evidence for stabilization of a nitrogen cation by neighboring chlorine or bromine

“…128,129 The Beckmann rearrangement generally requires a very high reaction temperature and strong acidic conditions. However, Gai and coworkers have recently revealed that conversion of various ketoximes efficiently takes place under a moderate-temperature regime (130 • C) in the presence of tungstated zirconia solid acid nanocatalysts (5-35 wt% of W).…”

Nanocatalysts for Rearrangement Reactions

“…Beckmann rearrangement, discovered 130 years ago, has been widely used for the purposes of modern organic synthesis of large variety of natural products, pharmaceuticals and products of bulk industrial processes [1][2][3].…”

Beckmann Rearrangement of 3-carboxybicyclo[3.3.1]nonane and [3.2.1]octane Oximes