Amide reduction is a reaction in organic synthesis where an amide is reduced to either an amine or an aldehyde functional group.
Catalytic hydrogenation
Catalytic
hydrogenation can be used to reduce amides to
; however, the process often requires high hydrogenation pressures and reaction temperatures to be effective (i.e. often requiring pressures above 197 atm and temperatures exceeding 200 °C).
catalysts for the reaction include
copper chromite,
rhenium trioxide and rhenium(VII) oxide or bimetallic catalyst.
Amines from other hydride sources
able to effect this reaction include
such as lithium aluminium hydride,
or lithium borohydride in mixed solvents of
tetrahydrofuran and
methanol.
Iron catalysis by triiron dodecacarbonyl in combination with polymethylhydrosiloxane has been reported.
Lawesson's reagent converts amides to , which then catalytically desulfurize.
Noncatalytic routes to aldehydes
Some amides can be reduced to aldehydes in the Sonn-Müller method, but most routes to aldehydes involve a well-chosen organometallic reductant.
Lithium aluminum hydride reduces an excess of N,N-disubstituted amides to an aldehyde:
- R(CO)NRR' + LiAlH4 → RCHO + HNRR'
With further reduction the
Alcohols is obtained.
Schwartz's reagent reduces amides to aldehydes,
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