Reactions of Aldehydes & Ketones with HCN (Cambridge (CIE) AS Chemistry)
Revision Note
Reaction of Hydrogen Cyanide with Aldehydes & Ketones
The carbonyl group -C=O, in aldehydes and ketones is polarised
The oxygen atom is more electronegative than carbon drawing electron density towards itself
This leaves the carbon atom slightly positively charged and the oxygen atom slightly negatively charged
The carbonyl carbon is therefore susceptible to attack by a nucleophile, such as the cyanide ion
Nucleophilic addition
The nucleophilic addition of hydrogen cyanide to carbonyl compounds is a two-step process
In step 1 the cyanide ion attacks the carbonyl carbon to form a negatively charged intermediate
In step 2 the negatively charged oxygen atom in the reactive intermediate quickly reacts with aqueous H+ (either from HCN, water or dilute acid) to form 2-hydroxynitrile
The nucleophilic addition of HCN mechanism
The cyanide ion attacks the carbonyl carbon to form a negatively charged intermediate which quickly reacts with a proton to form a 2-hydroxynitrile compound
Examiner Tips and Tricks
The actual negative charge on the cyanide ion is on the carbon atom and not on the nitrogen atom
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