The Cyanohydridoborate Anion as a Selective Reducing Agent
Date
2012-11-19
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Abstract
Sodium cyanohydridoborate (NaBH3CN) reduces a wide variety of organic functional groups with
remarkable selectivity. The reduction of aldehydes and ketones is pH dependent, the reaction proceeding readily
at pH 3-4. Oximes are smoothly reduced to alkylhydroxylamines and enamines are reduced to amines under acid
catalysis. Reaction of an aldehyde or ketone with ammonia, primary amine, or secondary amine at pH -7 in the
presence of BHaCN- leads to primary, secondary, or tertiary amines, respectively, uia reductive amination of the
carbonyl group. Reaction of substituted pyruvic acids with ammonia and BH3CN- affords an excellent method
for the synthesis of amino acids; l5N labeling can be accomplished by using I5NH3. The hydrogens of BHICNcan
be readily exchanged for either deuterium or tritium, thus permitting the synthesis of deuterium- or tritiumlabeled
alcohols, amines, and amino acids
Description
Sodium cyanohydridoborate (NaBH3CN) reduces a wide variety of organic functional groups with
remarkable selectivity. The reduction of aldehydes and ketones is pH dependent, the reaction proceeding readily
at pH 3-4. Oximes are smoothly reduced to alkylhydroxylamines and enamines are reduced to amines under acid
catalysis. Reaction of an aldehyde or ketone with ammonia, primary amine, or secondary amine at pH -7 in the
presence of BHaCN- leads to primary, secondary, or tertiary amines, respectively, uia reductive amination of the
carbonyl group. Reaction of substituted pyruvic acids with ammonia and BH3CN- affords an excellent method
for the synthesis of amino acids; l5N labeling can be accomplished by using I5NH3. The hydrogens of BHICNcan
be readily exchanged for either deuterium or tritium, thus permitting the synthesis of deuterium- or tritiumlabeled
alcohols, amines, and amino acids
Keywords
The Cyanohydridoborate Anion as a Selective Reducing Agent