Syllabus Edition

First teaching 2023

First exams 2025

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Homolytic Fission (HL IB Chemistry)

Revision Note

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Chemistry

Homolytic Fission

  • In a reaction mechanism, curly arrows show the movement of electrons
  • A single-headed curly arrow shows the movement of a single electron
    • These arrows can be called single barbed arrows, fish-hook arrows or half-curly arrows

What is homolytic fission?

  • Homolytic fission is breaking a covalent bond in such a way that each atom takes an electron from the bond to form two radicals
    • Remember: A radical is a chemical species that contains an unpaired electron
  • The homolytic fission of halogens is the initiation step (first step) in a sequence of steps that form a chain reaction

Homolytic fission of a chlorine-chlorine bond

homolytic-fission-of-a-chlorine-molecule

The covalent bond breaks evenly and each chlorine atom receives one electron resulting in the formation of two chlorine radicals, Cl•

  • The mechanism of homolytic fission can also be represented using Lewis formulas:

Mechanism of homolytic fission using Lewis formulas

9XZ0C-1~_homolytic-fission-of-a-chlorine-molecule-lewis-structures

The mechanism of homolytic fission using Lewis formulas shows the specific movement of electrons

  • When drawing mechanisms, ensure:
    • That the curly arrows start at an electron-rich region
      • In this case, the curly arrows should start from the middle of the covalent bond
    • That the curly arrows finish at their correct destination
      • In this case, each curly arrow should finish at a chlorine atom

Types of homolytic fission

  • Since bond breaking is an endothermic process, energy is required for homolytic fission to occur
  • The amount of energy required depends on the strength of the covalent bond being broken
    • Thermolytic fission: For weaker bonds, simply heating the compound could provide sufficient energy

Xbold colonX rightwards arrow with heat on top X• + X• 

    • Photolytic fission: For stronger bonds such as halogen bonds, exposing the compound to high-energy UV light provides the required energy

Xbold colonX begin mathsize 20px style rightwards arrow with U V space light on top end style X• + X• 

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Richard

Author: Richard

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.