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πŸ§ͺ Addition Polymerisation

Spec 4.7.3.1 πŸ“— Foundation
πŸ“– In-Depth Theory

What Is Addition Polymerisation?

ADDITION POLYMERISATION: many small alkene monomers join together to form a very large polymer molecule.
KEY FEATURES:
Monomer must have a C=C double bond (unsaturated).
Double bonds open up and join β€” one long chain forms.
ONLY ONE PRODUCT β€” the polymer itself. No by-products.
Atom economy = 100%.
GENERAL EQUATION:
nCHβ‚‚=CHR β†’ (β€”CHβ‚‚β€”CHRβ€”)β‚™
The brackets with subscript n show the REPEAT UNIT β€” the smallest repeating section of the polymer.
EXAMPLES:
Ethene β†’ poly(ethene): n(CHβ‚‚=CHβ‚‚) β†’ (β€”CHβ‚‚β€”CHβ‚‚β€”)β‚™
Propene β†’ poly(propene): n(CHβ‚‚=CHCH₃) β†’ (β€”CHβ‚‚β€”CHCH₃—)β‚™
Chloroethene β†’ PVC: n(CHβ‚‚=CHCl) β†’ (β€”CHβ‚‚β€”CHClβ€”)β‚™
Tetrafluoroethene β†’ PTFE: n(CFβ‚‚=CFβ‚‚) β†’ (β€”CFβ‚‚β€”CFβ‚‚β€”)β‚™

Drawing and Interpreting Polymer Diagrams

MONOMER β†’ POLYMER:
Identify the monomer: contains C=C double bond.
The repeat unit in the polymer = the monomer minus the double bond (both carbons now have single bonds).
DRAWING A REPEAT UNIT:
Draw the repeat unit inside square brackets.
Add lines through both ends of the bracket (showing the chain continues).
Write subscript n outside the bracket.
FINDING THE MONOMER FROM THE POLYMER:
Look at the repeat unit inside the brackets.
Add a C=C double bond between the two carbon atoms in the backbone.
This gives you the monomer.
PROPERTIES OF ADDITION POLYMERS:
Macromolecules β€” very large molecular mass.
Thermoplastics β€” soften when heated, can be reshaped.
Non-biodegradable β€” cause environmental problems.
Different properties depending on the monomer and branching.

Uses and Environmental Issues

COMMON ADDITION POLYMERS AND USES:
Poly(ethene) [LDPE/HDPE]: bags, bottles, packaging, pipes.
Poly(propene): ropes, carpets, food containers, car bumpers.
PVC (poly(chloroethene)): window frames, pipes, flooring, cables.
PTFE: non-stick coatings (Teflon), bearings, medical implants.
Poly(styrene): insulation, disposable cups, packaging foam.
ENVIRONMENTAL PROBLEMS:
Most addition polymers are NON-BIODEGRADABLE β€” persist for hundreds of years.
Plastic pollution in oceans, soils and food chains.
SOLUTIONS:
Recycling β€” melted down and remoulded (thermoplastics).
Incineration β€” recovers energy but produces COβ‚‚ and toxic gases.
Biodegradable polymers β€” starch-based or PLA can decompose.
Reducing use β€” replacing single-use plastics.
⚠️ Common Mistake

The repeat unit of an addition polymer is NOT the same as the monomer β€” it's the monomer structure but with the double bond replaced by two single bonds (continuing the chain). To find the monomer from the polymer: take the repeat unit and ADD a C=C double bond between the backbone carbons.

πŸ“ Key Equations
n(CHβ‚‚=CHβ‚‚) β†’ (β€”CHβ‚‚β€”CHβ‚‚β€”)β‚™ (ethene β†’ poly(ethene))
πŸ“Œ Key Note

Addition polymerisation: alkene monomers + C=C β†’ polymer. One product only, 100% atom economy. Repeat unit in brackets with n subscript. Monomers: ethene β†’ poly(ethene), propene β†’ poly(propene), chloroethene β†’ PVC. Non-biodegradable β€” environmental problem. Thermoplastics: can be recycled by melting.

🎯 Matching Activity β€” Addition Polymers

Match each monomer to its polymer and a key use. β€” drag the symbols on the right to match the component names on the left.

Ethene (CHβ‚‚=CHβ‚‚)
Drop here
Propene (CHβ‚‚=CHCH₃)
Drop here
Chloroethene (CHβ‚‚=CHCl)
Drop here
Tetrafluoroethene (CFβ‚‚=CFβ‚‚)
Drop here
PVC β€” window frames, pipes, cables
Poly(propene) β€” ropes, carpets, food containers
PTFE (Teflon) β€” non-stick coatings
Poly(ethene) β€” bags, bottles, packaging
πŸ”¬ Triple Science Only

Addition polymerisation (4.7.3.1) is chemistry-only β€” not in Combined Science.

🎯 Test Yourself
Question 1 of 2
1. How do you determine the monomer from the displayed formula of an addition polymer?
2. Why does addition polymerisation have 100% atom economy?
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