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First teaching 2014

Last exams 2024

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Stereoisomers (DP IB Chemistry: HL)

Revision Note

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Conformational & Configurational Isomers

  • Isomers are compounds that have the same molecular formula but a different arrangement of atoms
  • Isomers can be grouped into various categories, as shown:
20-3-1-flow-chart-of-the-various-isomers-with-points-to-help-identify-them

 

Flow chart of the various isomers with points to help identify them

  • At Standard Level, we encountered three types of structural isomers:
    • Functional group isomers, e.g. propanal and propanone
    • Position isomers, e.g. propan-1-ol and propan-2-ol
    • Branch-chain isomers, e.g. butane and methylpropane

  • If the atoms within an isomer are arranged in the same order then we are dealing with stereoisomers
    • Stereoisomers can be conformational or configurational

Conformational Isomers

  • Conformational isomers, or conformers, occur due to free rotation about a single σ-bond and can be described as:
    • Staggered
    • Eclipsed

  • One of the simplest examples of conformational isomerism is ethane, CH3CH3

Three-dimensional structure of ethane identifying the bond for conformational isomerism, downloadable IB Chemistry revision notes

Three-dimensional structure of ethane identifying the bond for conformational isomerism

  • By looking along the C-C bond highlighted in the diagram we can draw the two Newman projections, staggered and eclipsed

The staggered and eclipsed conformers of ethane, downloadable IB Chemistry revision notes

The staggered and eclipsed conformers of ethane

  • The staggered conformer has angles between hydrogen atoms on adjacent carbons of 60o, as shown
    • It is also more stable / lower energy than the eclipsed conformer because the C-H bonds are as far apart as possible to minimise the repulsion between the electrons in the C-H bonds

  • The eclipsed conformer has angles between hydrogen atoms on adjacent carbons of 0o, this is not shown in the diagrams so that the conformation can be seen
    • The eclipsed conformer is less stable / higher energy due to the repulsion between the electrons in the C-H bonds that are closer together

  • The free rotation that causes these conformers means that it is easy to interconvert from one conformer to the other and back
    • This is also the reason that it is almost impossible to isolate a single conformer

Conformational Isomerism in Cyclic Structures

  • Conformational isomerism can also be seen in cyclic structures
  • A common example of this is cyclohexane, C6H12
    • Cyclohexane isomers exist in boat and chair forms:

Skeletal structures showing the boat and chair forms of cyclohexane, downloadable IB Chemistry revision notes

Skeletal structures showing the boat and chair forms of cyclohexane

  • The boat form is less stable / higher energy as there are four eclipsed bonds causing strain on the overall structure
    • There is also repulsion of the hydrogen atoms on the end of the boat structure

  • It is possible to "flip" between the boat and chair forms which explains the difficulty in isolating just one of the forms
    • During the interconversions, it also possible to get other structures commonly called the half chair and the twisted boat

Configurational Isomers

  • Interconversion of configurational isomers can only occur by breaking bonds or rearranging stereocentres
  • Configurational isomers can be divided into:
    • cis / trans isomers and EZ isomers
    • optical isomers

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Stewart

Author: Stewart

Stewart has been an enthusiastic GCSE, IGCSE, A Level and IB teacher for more than 30 years in the UK as well as overseas, and has also been an examiner for IB and A Level. As a long-standing Head of Science, Stewart brings a wealth of experience to creating Topic Questions and revision materials for Save My Exams. Stewart specialises in Chemistry, but has also taught Physics and Environmental Systems and Societies.