Historically accessed through two-electron, anionic chemistry, ketones, alcohols, and amines are of foundational importance to the practice of organic synthesis. After placing this work in proper historical context, this Article reports the development, full scope, and a mechanistic picture for a strikingly different way of forging such functional groups. Thus, carboxylic acids, once converted to redox-active esters (RAEs), can be utilized as formally nucleophilic coupling partners with other carboxylic derivatives (to produce ketones), imines (to produce benzylic amines), or aldehydes (to produce alcohols). The reactions are uniformly mild, operationally simple, and, in the case of ketone synthesis, broad in scope (including several applications to the simplification of synthetic problems and to parallel synthesis). Finally, an extensive mechanistic study of the ketone synthesis is performed to trace the elementary steps of the catalytic cycle and provide the end-user with a clear and understandable rationale for the selectivity, role of additives, and underlying driving forces involved.
A comprehensive
study on the synthesis of 5-fluoroalkyl-substituted
isoxazoles starting from functionalized halogenoximes is reported.
One-pot metal-free [3 + 2] cycloaddition of CF3-substituted
alkenes and halogenoximes bearing ester, bromo, chloromethyl, and
protected amino groups was developed for the preparation of 5-trifluoromethylisoxazoles.
The target 3,5-disubstituted derivatives were obtained in a regioselective
manner in good to excellent yield on up to 130 g scale. 5-Fluoromethyl-
and 5-difluoromethylisoxazoles were synthesized by late-stage deoxofluorination
of the corresponding 5-hydroxymethyl or 5-formyl derivatives, respectively,
in turn prepared via metal-free cycloaddition of halogenoximes and
propargylic alcohol. An alternative approach based on nucleophilic
substitution in 5-bromomethyl derivatives was found to be more convenient
for the preparation of 5-fluoromethylisoxazoles. Reaction of isoxazole-5-carbaldehydes
with the Ruppert–Prakash reagent was used for the preparation
of (β,β,β-trifluoro-α-hydroxyethyl)isoxazoles.
Utility of described approaches was shown by multigram preparation
of side-chain functionalized mono-, di-, and trifluoromethylisoxazoles,
for example, fluorinated analogues of ABT-418 and ESI-09.
N‐Nitroso CHF2‐pyrazolines were synthesized from in situ generated difluoromethyldiazomethane (CF2HCHN2), tert‐butyl isonitrite (tBuONO), and alkenes. The synthesis of representative CHF2‐pyrazoles and CHF2‐oxazolines was also performed.
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