Presentation is loading. Please wait.

Presentation is loading. Please wait.

POLYMERS CONTENTS Prior knowledge Types of polymerisation

Published byShanna Emily McKenzie Modified over 5 years ago

Similar presentations

Presentation on theme: "POLYMERS CONTENTS Prior knowledge Types of polymerisation"— Presentation transcript:

1 POLYMERS CONTENTS Prior knowledge Types of polymerisation
Addition polymerisation Polymerisation of propene Condensation polymerisation Peptides Check list

2 Before you start it would be helpful to…
POLYMERS Before you start it would be helpful to… know the functional groups found in organic chemistry know the arrangement of bonds around carbon atoms recall and explain electrophilic addition reactions of alkenes

3 There are two basic types
POLYMERISATION General A process in which small molecules called monomers join together into large molecules consisting of repeating units. There are two basic types ADDITION all the atoms in the monomer are used to form the polymer CONDENSATION monomers join up the with expulsion of small molecules not all the original atoms are present in the polymer

4 POLYMERISATION OF ALKENES ADDITION POLYMERISATION
Preparation Many are prepared by a free radical process involving high pressure, high temperature and a catalyst. The catalyst is usually a substance (e.g. an organic peroxide) which readily breaks up to form radicals whichinitiate a chain reaction. Another famous type of catalyst is a Ziegler-Natta catalyst (named after the scientists who developed it). Such catalysts are based on the compound TiCl4. Properties Physical varied by changing the reaction conditions (pressure, temperature etc). Chemical have chemical properties based on the functional groups in their structure. poly(ethene) is typical; it is fairly inert as it is basically a very large alkane. This means it is resistant to chemical attack and non-biodegradable.

5 POLYMERISATION OF ALKENES ADDITION POLYMERISATION
Process • during polymerisation, an alkene undergoes an addition reaction with itself • all the atoms in the original alkenes are used to form the polymer • long hydrocarbon chains are formed the equation shows the original monomer and the repeating unit in the polymer ethene poly(ethene) MONOMER POLYMER n represents a large number

6 POLYMERISATION OF ALKENES EXAMPLES OF ADDITION POLYMERISATION
ETHENE POLY(ETHENE) PROPENE POLY(PROPENE) CHLOROETHENE POLY(CHLOROETHENE) POLYVINYLCHLORIDE PVC TETRAFLUOROETHENE POLY(TETRAFLUOROETHENE) PTFE “Teflon”

7 POLYMERISATION OF PROPENE - ANIMATION
AN EXAMPLE OF ADDITION POLYMERISATION PROPENE MOLECULES DO NOT ALWAYS ADD IN A REGULAR WAY THERE ARE THREE BASIC MODES OF ADDITION ISOTACTIC SYNDIOTACTIC ATACTIC Animation may not work in earlier versions of Powerpoint

8 POLY(PROPENE) ISOTACTIC SYNDIOTACTIC ATACTIC CH3 groups on same side
most desirable properties SYNDIOTACTIC CH3 groups alternate sided ATACTIC random most likely outcome

9 CONDENSATION POLYMERS
• monomers join up the with expulsion of small molecules • not all the original atoms are present in the polymer Examples polyamides (nylon) polyesters (terylene) peptides starch Synthesis reactions between diprotic carboxylic acids and diols diprotic carboxylic acids and diamines amino acids ESTER LINK AMIDE LINK

10 POLYESTERS - TERYLENE Reagents terephthalic acid HOOC-C6H4-COOH
ethane-1,2-diol HOCH2CH2OH Equation n HOCH2CH2OH + n HOOC-C6H4-COOH ——> -[OCH2CH2OOC(C6H4)CO] n n H2O Product poly(ethylene terephthalate) ‘Terylene’, ‘Dacron’ Repeat unit — [-OCH2CH2OOC(C6H4)CO-] n — Eliminated water Reaction esterification Properties contain an ester link can be broken down by hydrolysis the C-O bond breaks behaves as an ester biodegradable Uses fabrics

11 POLYAMIDES - NYLON-6,6 Reagents hexanedioic acid HOOC(CH2)4COOH
hexane-1,6-diamine H2N(CH2)6NH2 Equation n HOOC(CH2)4COOH + n H2N(CH2)6NH2 ——> -[NH(CH2)6NHOC(CH2)4CO] n- + n H2O Product Nylon-6,6 two repeating units, each with 6 carbon atoms Repeat unit —[-NH(CH2)6NHOC(CH2)4CO-]n— Eliminated water Mechanism addition-elimination Properties contain a peptide (or amide) link can be broken down by hydrolysis the C-N bond breaks behave as amides biodegradable can be spun into fibres for strength Uses fibres and ropes

12 Amino acids join together via an amide or peptide link
PEPTIDES Reagents amino acids Equation H2NCCH2COOH H2NC(CH3)COOH ——> H2NCCH2CONHHC(CH3)COOH + H2O Product peptide (the above shows the formation of a dipeptide) Eliminated water Mechanism addition-elimination Amino acids join together via an amide or peptide link 2 amino acids joined dipeptide 3 amino acids joined tripeptide many amino acids joined polypeptide a dipeptide

13 PROTEINS • polypeptides with large relative molecular masses (>10000) • chains can be lined up with each other • the C=O and N-H bonds are polar due to a difference in electronegativity • hydrogen bonding exists between chains dotted lines represent hydrogen bonding

Download ppt "POLYMERS CONTENTS Prior knowledge Types of polymerisation"

Similar presentations

A guide for GCSE students KNOCKHARDY PUBLISHING

A guide for GCSE students KNOCKHARDY PUBLISHING
Polymers Larry Scheffler Version 1.0.

Polymers Larry Scheffler Version 1.0.
Condensation Polymerisation

Condensation Polymerisation
THE CHEMISTRY OF POLYMERS A guide for A level students KNOCKHARDY PUBLISHING.

THE CHEMISTRY OF POLYMERS A guide for A level students KNOCKHARDY PUBLISHING.
Week 8 © Pearson Education Ltd 2009 This document may have been altered from the original Describe condensation polymerisation forming polyesters and polyamides,

Week 8 © Pearson Education Ltd 2009 This document may have been altered from the original Describe condensation polymerisation forming polyesters and polyamides,
Bestchoice.net.nz is an excellent revision website run by the Auckland University- To get on to this siter you must use the following details -Write this.

Bestchoice.net.nz is an excellent revision website run by the Auckland University- To get on to this siter you must use the following details -Write this.
Polymers.  Students should be able to :  Define polymers  Distinguish between addition and condensation as reactions in the formation of polymers 

Polymers.  Students should be able to :  Define polymers  Distinguish between addition and condensation as reactions in the formation of polymers 
Addition Polymerisation Condensation Polymerisation Uses of polymers

Addition Polymerisation Condensation Polymerisation Uses of polymers
Polymers.

Polymers.
Macromolecule s K Warne. C H H C H H C H H C H H C H H C H H C H H C H H Macromolecules What do you notice about this structure? It is made of lots of.

Macromolecule s K Warne. C H H C H H C H H C H H C H H C H H C H H C H H Macromolecules What do you notice about this structure? It is made of lots of.
POLYMERISATION OF ALKENES Process during polymerisation, an alkene undergoes an addition reaction with itself all the atoms in the original alkenes are.

POLYMERISATION OF ALKENES Process during polymerisation, an alkene undergoes an addition reaction with itself all the atoms in the original alkenes are.
2 3 18/09/2015 Monomers and Polymers Ethene Here’s ethene again. Ethene is called a MONOMER because it is just one small molecule. We can use ethene.

2 3 18/09/2015 Monomers and Polymers Ethene Here’s ethene again. Ethene is called a MONOMER because it is just one small molecule. We can use ethene.
Polymer large molecules atoms Synthetic Macromolecules

Polymer large molecules atoms Synthetic Macromolecules
Slime Practical Place 40 cm3 of PVA solution into the plastic cup.

Slime Practical Place 40 cm3 of PVA solution into the plastic cup.
Polymerisation Copy essential keyword definitions into books;

Polymerisation Copy essential keyword definitions into books;
1 Organic Polymers  Synthetic and Natural Chapter 22 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1 Organic Polymers  Synthetic and Natural Chapter 22 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Warm-Up #38 Predict the products and balance the following reactions. Include the molecular formula, the structural formula and the names of all reactants.

Warm-Up #38 Predict the products and balance the following reactions. Include the molecular formula, the structural formula and the names of all reactants.
Addition polymers  Draw the repeating unit of addition polymers from monomer structures and vice versa,

Addition polymers  Draw the repeating unit of addition polymers from monomer structures and vice versa,
Polymers Chapter 21.

Polymers Chapter 21.
A guide for A level students KNOCKHARDY PUBLISHING

A guide for A level students KNOCKHARDY PUBLISHING

Similar presentations

Ads by Google