Arenes: Location of Halogenation
- Arenes will undergo substitution reactions with halogens to form aryl halides
- This reaction is also called a halogenation reaction
- Depending on the reaction conditions, halogenation can occur:
- In the aromatic ring
- In the side chain
Halogenation in the aromatic ring
- Halogenation of alkylarenes in the aromatic ring will occur when a halogen and anhydrous halogen carrier catalyst (such as AlBr3 or AlCl3) is used
Halogenation of alkylarenes in the aromatic ring
- Aryl halides are less reactive than halogenoalkanes as the carbon-halogen bond in aryl halides is stronger
- This is due to the partial overlap of the lone pairs on the halogen atom with the π system in the benzene ring
- The carbon-halogen bond, therefore, has a partial double bond character
Aryl halides are unreactive due to the partial double bond character of the carbon-halogen bond
Halogenation in the side chain
- Halogenation of alkylarenes in the side chain will occur when the halogen is passed into boiling alkylarene in the presence of ultraviolet (UV) light
- This is a free-radical substitution reaction
Halogenation of alkylarenes in the side chain is an example of a free-radical substitution reaction
- If excess halogen is used, all hydrogen atoms on the alkyl side-chain will be substituted by the halogen atoms
In excess halogen, all hydrogen atoms on the alkyl side-chain will be replaced
- Note that no substitution into the benzene ring occurs under these conditions