Kolbe–Schmitt reaction

"Kolbe process" redirects here. For the electrochemical decarboxylation/dimerization reaction, see Kolbe electrolysis.

The Kolbe–Schmitt reaction or Kolbe process (named after Hermann Kolbe and Rudolf Schmitt) is a carboxylation chemical reaction that proceeds by treating phenol with sodium hydroxide to form sodium phenoxide,^[1] then heating sodium phenoxide with carbon dioxide under pressure (100 atm, 125 °C), then treating the product with sulfuric acid. The final product is an aromatic hydroxy acid which is also known as salicylic acid (the precursor to aspirin).^[2][3][4][5]

The Kolbe–Schmitt reaction

Kolbe–Schmitt reaction
Named after	Hermann Kolbe Rudolf Schmitt
Reaction type	Addition reaction
Identifiers
Organic Chemistry Portal	kolbe-schmitt-reaction
RSC ontology ID	RXNO:0000182

By using potassium hydroxide, 4-hydroxybenzoic acid is accessible, an important precursor for the versatile paraben class of biocides used e.g. in personal care products.

The methodology is also used in the industrial synthesis of 3-hydroxy-2-naphthoic acid; the regiochemistry of the carboxylation in this case is sensitive to temperature.^[6]

Reaction mechanism

The Kolbe–Schmitt reaction proceeds via the nucleophilic addition of a phenoxide, classically sodium phenoxide (NaOC₆H₅), to carbon dioxide to give the salicylate. The final step is the reaction (protonation) of the salicylate anion with an acid to form the desired salicylic acids (ortho- and para- isomers).

Kolbe–Schmitt reaction

(animation)