Reactions of Alkenes (Cambridge (CIE) AS Chemistry)
Revision Note
Reactions of Alkenes
Alkenes are very useful compounds as they can undergo many types of reactions
They can therefore be used as starting molecules when making new compounds
Electrophilic addition
Electrophilic addition is the addition of an electrophile to a double bond
The C-C double bond is broken, and a new single bond is formed from each of the two carbon atoms
Electrophilic addition reactions include the addition of:
Hydrogen (also known as hydrogenation reaction)
Steam (H2O (g))
Hydrogen halide (HX)
Halogen
Electrophilic addition reactions of alkenes
The diagram shows an overview of the different electrophilic addition reactions alkenes can undergo
Oxidation
Alkenes can also be oxidised by acidified potassium manganate(VII) (KMnO4) which is a very powerful oxidising agent
Alkenes can be oxidised by both hot and cold KMnO4 which will result in different products being formed
When shaken with cold dilute KMnO4 the pale purple solution turns colourless and the product is a diol
When alkenes are reacted with hot concentrated KMnO4 the conditions are harsher causing the C-C double bond to completely break
The O-H groups in the diol formed are further oxidised to ketones, aldehydes, carboxylic acids or carbon dioxide gas
The actual products formed depend on what is bonded to the carbon atoms in the alkene
Oxidising alkenes using KMnO4
Alkenes can be oxidised by cold dilute and hot concentrated KMnO4 to give different products
The reactions of alkenes with hot concentrated KMnO4 can be used to determine the position of the double bond in larger alkenes
Predicting the position of double bonds formed
The above reactions can be used to predict where the double bond in a larger molecule is
Worked Example
What are the products of the oxidation of 2-methylprop-1-ene with hot, concentrated acidified KMnO4 (aq)?
Answer:
The products are propanone (a ketone), carbon dioxide and water
Worked Example
The oxidation of an alkane produces carbon dioxide gas, water and propanoic acid. Identify the alkene.
Answer:
The alkene is 1-butene
Addition polymerisation
Addition polymerisation is the reaction of many monomers containing at least one double C-C bond to form the long-chain polymers as the only product
Monomers are small, reactive molecules that react together to make the polymer
A polymer is a long-chain molecule made up of many repeating units (monomers)
In an addition polymerisation reaction, the C-C double bond is broken to link together the monomers and form a polymer
This is a common method of making plastics
The polymerisation of ethene
The polymer backbone consists of a carbon chain with monomers that contain 2 carbon atoms
The polymerisation of propene
The polymer backbone consists of a carbon chain with monomers that contain 2 carbon atoms with the methyl group, from the propane monomer, as a side chain
Other alkenes and substituted alkenes can also polymerise to make polymers with different properties
E.g. poly(chloroethene), also known as PVC is the most versatile plastic used
The polymerisation of chloroethene
Poly(chloroethene) is used as plastic
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