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15.4: Aromatic Ions

  • Page ID
    67318
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    Objectives

    After completing this section, you should be able to

    1. use the Hückel 4n + 2 rule to explain the stability of the cyclopentadienyl anion, the cycloheptatrienyl cation and similar species.
    2. use the Hückel 4n + 2 rule to determine whether or not a given unsaturated cyclic hydrocarbon anion or cation is aromatic.
    3. draw the resonance contributors for the cyclopentadienyl anion, cation and radical, and similar species.

    Charged Aromatic Compounds

    Carbanions and carbocations may also show aromatic stabilization. Some examples are:

    The three-membered ring cation has 2 \(\pi\)-electrons and is surprisingly stable, considering its ring strain. Cyclopentadiene is as acidic as ethanol, reflecting the stability of its 6 π-electron conjugate base. Salts of cycloheptatrienyl cation (tropylium ion) are stable in water solution, again reflecting the stability of this 6 \(\pi\)-electron cation.

    Exercises

    Exercise \(\PageIndex{1}\)

    Draw the resonance structures for cycloheptatriene anion. Are all bonds equivalent? How many lines (signals) would you see in a H1 NMR?

    Answer

    All protons and carbons are the same, so therefore each spectrum will only have one signal in the proton NMR.

    15_4_1.svg

     

    Exercise \(\PageIndex{2}\)

    The following reaction occurs readily. Propose a reason why this occurs?

    15_4_2.svg

     

    Answer

    The ring becomes aromatic with the addition of two electrons. Thereby obeying the 4n+2 rule.

    Contributors and Attributions


    15.4: Aromatic Ions is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by LibreTexts.

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