The Triiodomethane (Iodoform) Reaction With Aldehydes and Ketones
This page looks at how the triiodomethane (iodoform) reaction can be used to identify the presence of a CH3CO group in aldehydes and ketones.
Note: This reaction can also be used in testing for the CH3CH(OH) group in alcohols. You will find a link to this at the bottom of the page.
Doing the Triiodomethane (Iodoform) Reaction
There are two apparently quite different mixtures of reagents that can be used to do this reaction. They are, in fact, chemically equivalent.
Note: It would be silly to learn both of these methods. Use whichever one your examiners want – find out by looking at past papers and mark schemes. If you haven't got these, go to the syllabuses page to find out how to get hold of them.
Using Iodine and Sodium Hydroxide Solution
This is chemically the more obvious method.
Iodine solution is added to a small amount of aldehyde or ketone, followed by just enough sodium hydroxide solution to remove the colour of the iodine. If nothing happens in the cold, it may be necessary to warm the mixture very gently.
A positive result is the appearance of a very pale yellow precipitate of triiodomethane (previously known as iodoform) – CHI3.
Apart from its colour, this can be recognised by its faintly "medical" smell. It is used as an antiseptic on the sort of sticky plasters you put on minor cuts, for example.
Using Potassium Iodide and Sodium Chlorate(I) Solutions
Sodium chlorate(I) is also known as sodium hypochlorite.
Potassium iodide solution is added to a small amount of aldehyde or ketone, followed by sodium chlorate(I) solution. Again, if no precipitate is formed in the cold, it may be necessary to warm the mixture very gently.
The positive result is the same pale yellow precipitate as before.
Why the two reactions are equivalent: The reaction happens in two stages: first the aldehyde or ketone reacts with iodine, and the product of that reaction reacts with hydroxide ions. That is obviously the mixture you are adding in the first method above.
In the second method, the sodium chlorate(I) solution is an oxidising agent, and oxidises the iodide ions in the potassium iodide to iodine. As well as any possible precipitate, you will also see the typical reddish-brown colour of iodine solution being formed during the reaction.
So although you didn't put any iodine into the mixture, it is made in situ. What about the hydroxide ions?
Sodium chlorate(I) solution is alkaline and contains enough hydroxide ions to carry out the second half of the reaction. The reason that sodium chlorate(I) is alkaline is that it reacts reversibly with water to form the weak acid chloric(I) acid together with hydroxide ions.
The Chemistry of the Triiodomethane (Iodoform) Reaction
What the Triiodomethane (Iodoform) Reaction Shows
A positive result – the pale yellow precipitate of triiodomethane (iodoform) – is given by an aldehyde or ketone containing the grouping:
"R" can be a hydrogen atom or a hydrocarbon group (for example, an alkyl group).
If "R" is hydrogen, then you have the aldehyde ethanal, CH3CHO.
- Ethanal is the only aldehyde to give the triiodomethane (iodoform) reaction.
- If "R"is a hydrocarbon group, then you have a ketone. Lots of ketones give this reaction, but those that do all have a methyl group on one side of the carbon-oxygen double bond. These are known as methyl ketones.
Equations for the Triiodomethane (Iodoform) Reaction
We will take the reagents as being iodine and sodium hydroxide solution.
The first stage involves substitution of all three hydrogens in the methyl group by iodine atoms. The presence of hydroxide ions is important for the reaction to happen – they take part in the mechanism for the reaction (not required for UK A-level).
In the second stage, the bond between the C I3 and the rest of the molecule is broken to produce triiodomethane (iodoform) and the salt of an acid.
Putting all this together gives the overall equation for the reaction:
Questions to test your understandingQuestions on aldehydes and ketones and the triiiodomethane reaction Answers