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In organic chemistry, an azo coupling is an organic reaction between a diazonium compound () and another aromatic compound that produces an azo compound (). In this electrophilic aromatic substitution reaction, the aryldiazonium cation is the electrophile, and the activating group carbon (usually from an arene, which is called coupling agent), serves as a nucleophile. Classical coupling agents are phenols and . Usually the diazonium reagent attacks at the para position of the coupling agent. When the para position is occupied, coupling occurs at a ortho position, albeit at a slower rate.
Azo printing exploits this reaction as well. In this case, the diazonium ion is degraded by light, leaving a latent image in undegraded diazonium salt which is made to react with a phenol, producing a colored image: the blueprint.
Prontosil, the first sulfa drugs, was once produced by azo coupling. The azo compound is a prodrug that is activated in-vivo to produce the sufanilamide.
The reaction is also used in the Pauly reaction test to detect tyrosine or histidine residues in proteins.
Additionally, through the azo coupling reaction between the aromatic diazonium ion and aromatic amino acid residues, this reaction can also be used to form or to modify proteins such as tRNA synthetase.
Naphthols are used as coupling agents. One example is the synthesis of the dye organol brown ( 4) from aniline ( 1) and 1-naphthol ( 3):
Similarly, β-naphthol couples with phenyldiazonium electrophile to produce an intense orange-red dye.
Besides activated aromatic coupling agents, other nucleophilic carbons also couple with diazonium salts as illustrated by the synthesis of azo .
The dye called aniline yellow is produced by the reaction of aniline and a diazonium salt. In this case the C- and N-coupling compete.
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