Condensation Polymerisation (Edexcel A Level Chemistry): Revision Note

Condensation Polymers

• Condensation polymerisation is another type of reaction whereby a polymer is produced by repeated condensation reactions between monomers

• Natural condensation polymers are all formed by the elimination of water

  • Although the process of condensation polymerisation involves the elimination of a small molecule

• Condensation polymers can be identified because the monomers are linked by ester or amide bonds

• Condensation polymers can be formed by:

  • dicarboxylic acids and diols

  • dicarboxylic acids and diamines

  • amino acids

Polyester

• Is formed by the reaction between dicarboxylic acid monomers and diol monomers

• Polyester is produced by linking these monomers with ester bonds / links

This polymer structure shows an ester functional group linking monomers together

Formation of polyesters

• A diol and a dicarboxylic acid are required to form a polyester

  • A diol contains 2 -OH groups

  • A dicarboxylic acid contains 2 -COOH groups

The position of the functional groups on both of these molecules allows condensation polymerisation to take place effectively

• When the polyester is formed, the H atom on the diol and the -OH group of the -COOH are expelled as a water molecule (H₂O)

• The resulting polymer is a polyester

  • In this example, the polyester is poly(ethylene terephthalate) or PET, which is sometimes known by its brand names of Terylene or Dacron

Expulsion of a water molecule in this condensation polymerisation forms the polyester called (ethylene terephthalate) (PET)

Formation of polyesters - hydroxycarboxylic acids

• So far the examples of making polyesters have focused on using 2 separate monomers for the polymerisation

• There is another route to making polyesters

• A single monomer containing both of the key functional groups can also be used

• These monomers are called hydroxycarboxylic acids

  • They contain an alcohol group (-OH) at one end of the molecule while the other end is capped by a carboxylic acid group (-COOH)

Both functional groups that are needed to make the polyester come from the same monomer

Polyamides

• Polyamides are polymers where repeating units are bonded together by amide links

• The formula of an amide group is -CONH

  

  An amide link - also known as a peptide link - is the key functional group in a polyamide

Polyamide monomers

• A diamine and a dicarboxylic acid are required to form a polyamide

  • A diamine contains 2 -NH₂ groups

  • A dicarboxylic acid contains 2 -COOH groups

• Dioyl dichlorides can also used to react with the diamine instead of the acid

  • A dioyl chloride contains 2 -COCl groups

  • This is a more reactive monomer but more expensive than dicarboxylic acid

The monomers for making polyamides

Formation of polyamides

This shows the expulsion of a small molecule as the amide link forms

Amino acids - formation of proteins

• Proteins are vital biological molecules with varying functions within the body

• They are essentially polymers made up of amino acid monomers

• Amino acids have an aminocarboxylic acid structure

• Their properties are governed by a branching side group - the R group

Amino acids contain an amine group, an acid group and a unique R group

• Different amino acids are identified by their unique R group

• The names of each amino acid is given using 3 letters

• For example Glutamine is known as ‘Gln’

• Dipeptides can be produced by polymerising 2 amino acids together

  • The amine group (-NH₂) and acid group (-COOH) of each amino acid is used to polymerise with another amino acid

• Polypeptides are made through polymerising more than 2 amino acids together

Dipeptides and polypeptides are formed by polymerising amino acid molecules together

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