Reactions of Alkenes (AQA A Level Chemistry)

Alkenes: Reactions

• 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:

  • Steam (H₂O (g))

  • Hydrogen halide (HX)

  • Halogen

The diagram shows an overview of the different electrophilic addition reactions alkenes can undergo

Electrophilic Addition

• The double bond in alkenes is an area of high electron density (there are four electrons found in this double bond)

• This makes the double bond susceptible to attack by electrophiles (electron-loving species)

• An electrophilic addition is the addition of an electrophile to a double bond

Electrophilic addition of hydrogen bromide

• A molecule of hydrogen bromide (HBr) is polar as the hydrogen and bromine atoms have different electronegativities

• The bromine atom has a stronger pull on the electrons in the H-Br bond

• As a result of this, the Br atom has a partial negative and the H atom a partial positive charge

Due to differences in electronegativities of the hydrogen and bromine atom, HBr is a polar molecule

• In an addition reaction, the H atom acts as an electrophile and accepts a pair of electrons from the C=C bond in the alkene

  • The H-Br bond breaks heterolytically, forming a Br^- ion

• This result in the formation of a highly reactive carbocation intermediate which reacts with the Br^- (nucleophile)

Example of an electrophilic addition reaction of HBr and propene to form 1-bromopropane and 2-bromopropane

Electrophilic addition of bromine

• Bromine (Br₂) is a non-polar molecule as both atoms have similar electronegativities and therefore share equally  the electrons in the covalent bond

• However, when a bromine molecule gets closer to the double bond of an alkene, the high electron density in the double bond repels the electron pair in Br-Br away from the closest Br atom

• As a result of this, the closest Br atom to the double bond is slightly positive and the further Br atom is slightly negatively charged

Br₂ is a non-polar molecule however when placed close to an area of high electron density it can get polarised

• In an addition reaction, the closest Br atom acts as an electrophile and accepts a pair of electrons from the C-C bond in the alkene

  • The Br-Br bond breaks heterolytically, forming a Br^- ion

• This results in the formation of a highly reactive carbocation intermediate which reacts with the Br^- (nucleophile)

Example of an electrophilic addition reaction of Br₂ and ethene to form dibromoethane