Nitriles & Hydroxynitriles (CIE AS Chemistry)

Revision Note

Francesca

Author

Francesca

Last updated

Production of Nitriles

  • Nitriles are compounds with a -CN functional group
  • They can be prepared from the nucleophilic substitution of halogenoalkanes

 Nitrogen Compounds Nitriles, downloadable AS & A Level Chemistry revision notes

Propanenitrile, an example of a nitrile

Reaction with KCN

  • The nucleophile in this reaction is the cyanide, CN- ion
  • Ethanolic solution of potassium cyanide (KCN in ethanol) is heated under reflux with the halogenoalkane
  • The product is a nitrile
    • If an aqueous solution of potassium cyanide (KCN (aq)) is heated under reflux with the halogenoalkane, an alcohol can be formed instead of the nitrile

 

Bromoethane reacts with ethanolic potassium cyanide when heated under reflux to form propanenitrile

Examiner Tip

The nucleophilic substitution of halogenoalkanes with KCN adds an extra carbon atom to the carbon chain.This reaction can therefore be used by chemists to make a compound with one more carbon atom than the best available organic starting material.

Production of Hydroxynitriles

  • Hydroxynitriles are compounds with both a hydroxy (-OH) and cyanide (-CN) functional group
  • They can be prepared from the nucleophilic addition of aldehydes and ketones

 Nitrogen Compounds Hydroxynitrile, downloadable AS & A Level Chemistry revision notes

2-hydroxy-2-methylpropanenitrile

Reaction with HCN

  • 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 a 2-hydroxynitrile

 

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 Tip

The actual negative charge on the cyanide ion is on the carbon atom and not on the nitrogen atom.

Hydrolysis of Nitriles

  • Nitriles are hydrolysed by either dilute acid or dilute alkali followed by acidification to give a carboxylic acid
    • Hydrolysis is the breakdown of a compound using water

Hydrolysis of nitriles

  • Nitriles are hydrolysed by either dilute acid or dilute alkali followed by acidification
    • Hydrolysis by dilute acid results in the formation of a carboxylic acid and ammonium salt
    • Hydrolysis by dilute alkali results in the formation of a sodium carboxylate salt and ammonia; Acidification is required to change the carboxylate ion into a carboxylic acid

  • The -CN group at the end of the hydrocarbon chain is converted to a -COOH group

Hydrolysis of nitriles by either dilute acid (1) or dilute alkali and acidification (2) will form a carboxylic acid

Examiner Tip

Unlike the formation of nitriles which add an extra carbon atom to the carbon chain, hydrolysis doesn’t change the number of carbon atoms.

You've read 0 of your 5 free revision notes this week

Sign up now. It’s free!

Join the 100,000+ Students that ❤️ Save My Exams

the (exam) results speak for themselves:

Did this page help you?

Francesca

Author: Francesca

Expertise: Head of Science

Fran studied for a BSc in Chemistry with Forensic Science, and since graduating taught A level Chemistry in the UK for over 11 years. She studied for an MBA in Senior Leadership, and has held a number of roles during her time in Education, including Head of Chemistry, Head of Science and most recently as an Assistant Headteacher. In this role, she used her passion for education to drive improvement and success for staff and students across a number of subjects in addition to Science, supporting them to achieve their full potential. Fran has co-written Science textbooks, delivered CPD for teachers, and worked as an examiner for a number of UK exam boards.