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4.2: Structure of Alkyl Radicals: Hyperconjugation

  • Page ID
    201112
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    Trend in Radical Stability

    3o > 2o > 1o > Methyl

    In order to understand the reason for this ordering in radical stability we must first look at the structure of a alkyl radical.

    Experimental data have shown that radicals have a trigonal planar geometry associated with sp2 hybridization.

    The unpaired electron is contained in a p orbital which is perpendicular to the molecular plane.

    This trigonal planar geometry allows for sigma on adjacent carbons to align and overlap with the p orbital. The alignment allows for the electrons in the sigma bond to donate electrons into the electron deficient p orbital. This process is called hyperconjugation.

    The more alkyl substituents, and therefore more sigma bonds, the electron density is donated into the p orbitals. This is why the general trend in radical stability is true 3o > 2o > 1o > Methyl.


    4.2: Structure of Alkyl Radicals: Hyperconjugation is shared under a not declared license and was authored, remixed, and/or curated by LibreTexts.

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