The Beckmann rearrangement involves the use of a strong acid to rearrange an oxime (aldoxime or ketoxime) to an amide. First the oxime hydroxyl group receives a proton from the acid, forming a leaving group. A [1,2]-shift of the R group, which is anti to the leaving group, then promotes...
The Buchwald-Hartwig cross-coupling reaction (Buchwald-Hartwig Amination) uses catalytic palladium and a strong base in stoichiometric amounts to make an aryl amine from an aryl halide and a 1° or 2° amine. Oxidative addition of the aryl halide to the Pd(0) catalyst occurs first, followed by amine coordination to the Pd(II)...
The Jones oxidation uses chromium trioxide (CrO3), acid, water, and acetone to convert 1° or 2° alcohols into carboxylic acids or ketones respectively. Chromic acid is first prepared by dissolving CrO3 or Cr2O72- in acid: the monomeric form (HCrO4-) dominating in dilute solutions versus the dimeric form (HCr2O7-) dominating in...
The Knoevenagel condensation uses a catalytic base such as piperidine to convert an aldehyde or ketone and an activated methylene compound to a α,β-unsaturated dicarbonyl or related compound. The base deprotonates the methylene compound, creating a resonance stabilized enolate, which reacts with an iminium ion made from the carbonyl compound...
The Knorr pyrazole synthesis uses a catalytic acid to convert a hydrazine and 1,3-dicarbonyl compound to pyrazoles. The dicarbonyl deprotonates the acid and is subsequently attacked by the hydrazine to produce an imine. The second nitrogen of the hydrazine then attacks the second carbonyl group to form a second imine....
The Kolbe-Schmitt reaction uses a base, carbon dioxide, and an acid work-up to convert a phenol to an ortho- or para- hydroxy benzoic acid. First the base deprotonates the phenol, forming phenoxide, which attacks carbon dioxide. Tautomerization and an acid work-up yields the final product. A large counterion such as...