Chemical Reactions of Indole

Chemical Properties or Reactions of Indole

Important chemical reactions of indole are given below-

Acidic and Basic Character

Like pyrrolee, indole is a weak base and also a weak acid. It is polymerized by strong acids and reacts with KOH and Grignard Reagents.

Electrophilic Substitution Reactions

The pyrrole ring in indole is very electron rich, in comparison to the benzene ring, therefore, electrophile's attack always takes place in the five-membered ring, except in special circumstances. Unlike pyrrole, indole undergoes electrophylic substitution reactions at carbon-3 because two resonance forms can be written for intermediate cation obtained from attack at carbon-3, whereas only one such form is possible for substitution at carbon-2.

Nitration, Sulphonation, Bromination, Alkylation and Friedel Crafts Acylation of Indole

Nitration: At low temperature with ethyl nitrate in the presence of sodium ethoxide to yield 3-nitroindole.
Sulphonation: With sulphur trioxide in pyridine at 110^oC give indole 3-sulphonic acid.
Bromination: With bromine in dioxan at 0^oC to form 3-bromo indole.
Friedel Craft Acylation: With acetyl chloride in the presence of SnCl₄ to yield 3-acetylindole.
Alkylation: With methyl iodide in dimethylsulphoxide (DMF) at about 80^oC to give 3-methylindole (skatole).

Reimer-Tiemann Formylation

Indole reacts with chloroform in the presence of alkali to yield indole 3-aldehyde ()3-formylindole) and 3-chloroquinoline.

Diazo Coupling

Indole couples with benzenediazonium chloride is a widely acidic solution to yield 3-phenylazoindole.

Mannich Reaction

Indole undergoes Mannich reaction with formaldehyde and dimethylamine to give 3-dimethylaminomethylindole (Gramine).

Vilsmeier Haack Reaction

Indoles can be readily formylated to 3-formyl-indoles via Vilsmeier Haack reaction.

Oxidation of Indole

Indole may be oxidized by ozone in formamide to give 2-formamidobenzaldehyde.

Reduction of Indole

Mild reduction of indole with zinc or tin and HCl yields 2,3-dihydroindole (indoline). Catalytic reduction hydrogenates both rings and produces octahydroindole. However, lithium/liquid ammonia reduces the benzene ring to 4,7-dihydroindole as major product. The heterocyclic ring can be reduced in acidic reagents such as Zn/HCl or NaCNBH₃/CH₃COOH to give indoline.

Also read Preparation of Indole and other Heterocyclic Compounds