Syllabus Edition

First teaching 2023

First exams 2025

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Addition Polymers (HL IB Chemistry)

Revision Note

Philippa

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Philippa

Expertise

Chemistry

Addition Polymers

What is addition polymerisation?

  • Addition polymerisation is one of the most important addition reactions of alkenes which form the basis of the plastic industry
  • Addition polymerisation is the reaction in which many monomers containing at least one C=C double bond form long chains of polymers as the only product
    • Just like in other addition reactions of alkenes, the π-bond in each C=C bond breaks and then the monomers link together to form new C-C single bonds
  • A polymer is a long-chain molecule that is made up of many repeating units
  • The small, reactive molecules that react together to form the polymer are called monomers
  • A polymerisation reaction can be represented by a general formula or by using structural / displayed formulae
    • E.g. poly(ethene) and poly(chloroethene) (also known as PVC) are polymers made up of the ethene and chloroethene monomers respectively and are commonly used in making plastics

General Formula Addition Polymerisation 

Addition polymerisation of ethene and chloroethene using general formulae

The general formulae of the addition polymerisation of ethene (1) and chloroethene (2)

Displayed / Structural Formula for Addition Polymerisation

Addition polymerisation of ethene and chloroethene using structural formulae

The addition polymerisation of ethene (1) and chloroethene (2)

  • Just like any other addition reaction of alkenes, addition polymerisation gives only one product

Deducing repeat units

  • A repeat unit is the smallest group of atoms that when connected one after the other make up the polymer chain
    • It is represented by square brackets in the displayed and general formula
  • In poly(alkenes) (such as poly(ethene)) and substituted poly(alkenes) (such as PVC) made of one type of monomer the repeating unit is the same as the monomer except that the C=C double bond is changed to a C-C single bond

Repeating Units for Addition Polymerisation

How to use structural formulae to identify repeat units for ethene and chloroethene

The repeating units of poly(ethene) and poly(chloroethene) are similar to their monomer except that the C=C bond has changed into a C-C bond

Worked example

Identify the monomers present in the given sections of addition polymer molecules:

Repeat unit worked examples

Answer 1:

  • When ethenol (CH(OH)=CH2) is polymerised, the C-C double bond opens to produce a repeating unit of CH(OH)-CH2
  • This gives the polymer poly(ethenol)

Formation of polyethenol

Answer 2:

  • To find the monomer, first the repeating unit should be deduced
  • Repeating units have only 2 carbons in the polymer main chain

Formation of polyprop-2-eneoic acid

Since the repeating unit is now found, it can be concluded that the monomer is prop-2-enoic acid

Prop-2-eneoic acid

Answer 3:

  • Again, the repeating unit only has 2 carbons in the polymer chain which in this case are two carbon atoms that each contain one OH group
  • Thus, when ethene-1,2-diol (CH(OH)=CH(OH)) is polymerised, the C=C double bond opens to produce a repeating unit of CH(OH)-CH(OH) which gives the polymer poly(ethene-1,2-diol)

Polyethene-1,2-diol

Exam Tip

  • The section of the polymer chain shown inside the square brackets by the structural or displayed formula is the repeat unit and not the monomer
  • The monomer is the same as the repeat unit except that it has C=C bonds instead of C-C bonds

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Philippa

Author: Philippa

Philippa has worked as a GCSE and A level chemistry teacher and tutor for over thirteen years. She studied chemistry and sport science at Loughborough University graduating in 2007 having also completed her PGCE in science. Throughout her time as a teacher she was incharge of a boarding house for five years and coached many teams in a variety of sports. When not producing resources with the chemistry team, Philippa enjoys being active outside with her young family and is a very keen gardener.