Syllabus Edition

First teaching 2023

First exams 2025

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The Mechanisms of Electrophilic Addition Reactions (HL) (HL IB Chemistry)

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Philippa

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Philippa

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The Mechanisms of Electrophilic Addition Reactions

Electrophilic Addition

  • Electrophilic addition is the addition of an electrophile (or Lewis acid) to an alkene double bond, C=C
  • The alkene double bond, C=C, is an area of high electron density which makes it susceptible to attack by electrophiles
  • The C=C bond breaks forming a single C-C bond and 2 new bonds from each of the two carbon atoms
  • Electrophilic addition reactions include the addition of:
    • Hydrogen, H2 (g)
    • Steam, H2O (g)
    • Hydrogen halides, HX
    • Halogens, X2

Different reactions of the alkenes including reagents and conditions

Different electrophilic addition reactions of alkenes

Alkene electrophilic addition reaction overview

Addition of hydrogen halides

  • A hydrogen halide molecule is polar as the hydrogen and halogen atoms have different electronegativities
    • For example, in a molecule of hydrogen bromide, HBr, 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 charge and the H atom a partial positive charge

    Partial charges in the H–Br bond

Diagram showing how hydrogen halides are polar and, therefore, electrophiles

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

  • In electrophilic addition reactions with hydrogen halides, the H atom acts as an electrophile and Lewis acid by accepting a pair of electrons from the C=C bond in the alkene
    • The H-Br bond breaks heterolytically, forming a Br- ion

  • This results in the formation of a highly reactive carbocation intermediate which reacts with the bromide ion, Br-
  • For example, the mechanism for the electrophilic addition of hydrogen bromide and ethene is:

Electrophilic addition mechanism

Example electrophilic addition mechanism of hydrogen bromide to ethene

Electrophilic addition reaction of HBr and ethene to form bromoethane 

Exam Tip

  • For electrophilic addition mechanisms, the curly arrows must:
    • Be double-headed to show the movement of a pair of electrons
    • Start from a lone pair of electrons or an area of high electron density, e.g. the C=C bond
    • Move towards a δ+ electrophile or the positive charge of a carbocation
       
  • Examiners often comment about the poor and incorrect use of curly arrows in organic mechanisms

Addition of halogens

  • The mechanism for the electrophilic addition of halogens (and hydrogen) is the same as the electrophilic addition of hydrogen halides with one key exception:
  • Hydrogen halide molecules have a permanent dipole (as shown above)
  • Halogen molecules have a temporary (or induced) dipole caused by the repulsion of the halogens electrons by the high electron density C=C bond

The partial charges in a halogen molecule are caused by the high electron density in the C=C bond

Diagram showing how halogens have temporary dipoles and, therefore, can act as electrophiles

The temporary (or induced) dipole in a halogen molecule

Exam Tip

  • The electrophilic addition reactions of alkenes with hydrogen halides and halogens are the same
  • The difference is whether the electrophile is due to a permanent or temporary dipole

Addition of water

  • Water is a weak electrophile, so does not undergo addition reactions with alkenes unless in the presence of a strong acid which can act as a catalyst
    • H3O+ acts as the electrophile
  • The reaction occurs in two steps
    • Step 1
      • The π electrons in the C=C are attracted to H3O+
      • Heterolytic fission occurs and a carbocation is formed
    • Step 2
    • Water acts as a nucleophile and donates a pair of electrons to the positive carbon atom forming the C-O bond
    • An equilibrium is established between the positive product and the deprotonated product (the alcohol)  
    • The H3O+ is regenerated as the catalyst

Electrophilic addition of water

electrophilic-addition-of-water

This mechanism is catalysed by concentrated acid

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Philippa

Author: Philippa

Philippa has worked as a GCSE and A level chemistry teacher and tutor for over thirteen years. She studied chemistry and sport science at Loughborough University graduating in 2007 having also completed her PGCE in science. Throughout her time as a teacher she was incharge of a boarding house for five years and coached many teams in a variety of sports. When not producing resources with the chemistry team, Philippa enjoys being active outside with her young family and is a very keen gardener.