Reactivity of Halogenoalkanes (AQA A Level Chemistry)
Revision Note
Reactivity of Halogenoalkanes
The halogenoalkanes have different rates of substitution reactions
Since substitution reactions involve breaking the carbon-halogen bond the bond energies can be used to explain their different reactivities
Halogenoalkane Bond Energy Table
The table above shows that the C-I bond requires the least energy to break, and is therefore the weakest carbon-halogen bond
During substitution reactions the C-I bond will therefore heterolytically break as follows:
R3C-I + OH- → R3C-OH + I-
halogenoalkane alcohol
The C-F bond, on the other hand, requires the most energy to break and is, therefore, the strongest carbon-halogen bond
Fluoroalkanes will therefore be less likely to undergo substitution reactions
Aqueous silver nitrate
Reacting halogenoalkanes with aqueous silver nitrate solution will result in the formation of a precipitate
The rate of formation of these precipitates can also be used to determine the reactivity of the halogenoalkanes
Halogenoalkane Precipitates Table
The formation of the pale yellow silver iodide is the fastest (fastest nucleophilic substitution reaction) whereas the formation of the silver fluoride is the slowest (slowest nucleophilic substitution reaction)
This confirms that fluoroalkanes are the least reactive and iodoalkanes are the most reactive halogenoalkanes
The trend in reactivity of halogenoalkanes
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?