Testing for Carbonyl Compounds (Cambridge (CIE) A Level Chemistry): Revision Note
Exam code: 9701
Testing for Carbonyls: 2,4-DNPH
2,4-dinitrophenylhydrazine (also known as 2,4-DNPH) is a reagent which detects the presence of carbonyl compounds (compounds with -C=O group)
The carbonyl group of aldehydes and ketones undergoes a condensation reaction with 2,4-dinitrophenylhydrazine
A condensation reaction is a reaction in which two molecules join together and a small molecule (such as H2O or HCl) is eliminated
The product formed when 2,4-DNPH is added to a solution that contains an aldehyde or ketone is a deep-orange precipitate which can be purified by recrystallisation
The melting point of the formed precipitate can then be measured and compared to literature values to find out which specific aldehyde or ketone had reacted with 2,4-DNPH
Example reaction of a ketone with 2,4-DNPH
Results of chemical tests using 2,4-DNPH
Examiner Tips and Tricks
The 2,4-DNPH is especially useful as other carbonyl compounds such as carboxylic acids and esters do not give a positive test
Identifying Carbonyls: Fehling's Solution & Tollens' Reagent
The presence of an aldehyde group (-CHO) in an unknown compound can be determined by the oxidising agents Fehling’s and Tollens’ reagents
Fehling’s solution
Fehling’s solution is an alkaline solution containing copper(II) ions which act as the oxidising agent
When warmed with an aldehyde, the aldehyde is oxidised to a carboxylic acid and the Cu2+ ions are reduced to Cu+ ions
In the alkaline conditions, the carboxylic acid formed will be neutralised to a carboxylate ion (the -COOH will lose a proton to become -COO- )
The carboxylate ion (-COO-) will form a salt with a positively charged metal ion such as sodium (-COO-Na+)
The clear blue solution turns opaque due to the formation of a red precipitate, copper(I) oxide
Ketones cannot be oxidised and therefore give a negative test when warmed with Fehling’s solution
Colour change using Fehling's solution
Tollens’ reagent
Tollens' reagent is an aqueous alkaline solution of silver nitrate in excess ammonia solution
Tollens' reagent is also called ammoniacal silver nitrate solution
When warmed with an aldehyde, the aldehyde is oxidised to a carboxylic acid and the Ag+ ions are reduced to Ag atoms
In the alkaline conditions, the carboxylic acid will become a carboxylate ion and form a salt
The Ag atoms form a silver ‘mirror’ on the inside of the tube
Ketones cannot be oxidised and therefore give a negative test when warmed with Tollens’ reagent
Colour change using Tollens' reagent
You've read 0 of your 5 free revision notes this week
Unlock more, it's free!
Did this page help you?