Question

In the reaction given below, $RCOOH+\left[ X \right]=RCOOC{{H}_{3}};\left[ X \right]$ can be:
A.$C{{H}_{2}}{{N}_{2}}$
B.$C{{H}_{3}}OH/{{H}^{+}}$
C.$C{{H}_{3}}COOH$
D.Both A & B

Answer 1

We know that an organic reaction in which an azide reacts with a carbonyl derivative which is usually an aldehyde, ketone, or a carboxylic acid under acidic conditions giving an amide or amine with the release of nitrogen is known as Schmidt reaction.

Complete answer:
Schmidt reaction is named after Karl Friedrich Schmidt who reported it by successfully converting benzophenone and hydrazoic acid to benzanilide. The Schmidt reaction can be employed to get amide by the reaction between an azide and a ketone or to get amine by the reaction between azide with a carboxylic acid.
The mechanism of Schmidt reaction for producing amines.
The mechanism begins with the formation of an acylium ion produced by the protonation of the carboxylic acid followed by dehydration.
The acylium ions formed now react with hydrazoic acid leading to the formation of a protonated azido ketone.
Now, the protonated azido ketone and the alkyl group undergoes a rearrangement reaction, resulting in the migration of the carbon-nitrogen bond and the removal of dinitrogen leading to the formation of a protonated isocyanate.
When water is introduced to attack the protonated isocyanate, carbamate is formed.
The carbamate on deprotonation and subsequent removal of carbon dioxide yields the required product, which is an amine.
Here X can be methanol or acetic acid. So both A and B are correct.
Therefore the correct answer is option D.

Note:
Remember that you may get confused between Schmidt reaction and Curtius rearrangement. The thermal decomposition of carboxylic azides to produce an isocyanate is known as the Curtius rearrangement. In other words, the reaction sequence including the subsequent reaction with water producing amines