Mukaiyama oxidation sensitivity

Although the Mukaiyama oxidation is not in the top list of the most frequently used alcohol oxidants, the authors of this book have decided to pay full attention to this procedure because it succeeds in very sensitive organometallic compounds, where most other oxidants fail. The Mukaiyama oxidation operates via a somehow unique mechanism involving a hydride transfer from a metal alkoxide to a very good hydride acceptor, which resembles the Oppenauer oxidation. In variance with the Oppenauer oxidation, the Mukaiyama protocol involves much milder conditions and it does not promote as easily base-induced side reactions. 

Functional Group and Protecting Group Sensitivity to Mukaiyama Oxidation... 

Many base-sensitive functionalities, such as carbonates79 or epoxides,75b resist the mild basic conditions of the Mukaiyama oxidation. 

The oxidation of this very sensitive substrate can be carried out by the Mukaiyama procedure with a 81% yield in a scale greater than 100 g. 

A tetrahydropyranyl linker is an acid-sensitive linker for alcohols. Nitrile oxides were generated in situ from tetrahydropyranyl-linked nitro alkanes and phenyl isocyanate under Mukaiyama conditions, and reactions with various alkynes gave resin-bound isoxazoles (Scheme 11.39). Cleavage with diluted trifluoroacetic acid gave isoxazoles as primary alcohols in a traceless manner. A library of 3-hydroxymethyl-4,5-disubstituted isoxazoles was prepared in a parallel and automated fashion by a 96-well plate synthesizer with an average yield of 60%. 

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See also in sourсe #XX -- [ ]

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