Why is phenyl carbocation unstable?

1 Answer
Jun 27, 2015

The phenyl carbocation is unstable because of the high bond energy of the aromatic #"C-H"# bond.

Explanation:

We can view the formation of a phenyl cation as

#"C"_6"H"_5"-H" → "C"_6"H"_5^+ +"H" + "e"^-#

The #"C-H"# bonds of benzene are #"sp"^2# hybridized.

The high #"s"# character means that the electrons are closer to the nucleus, so we must add more energy to remove these electrons and break the bond.

For example, it takes 423 kJ/mol to break the #"C-H"# bond in ethane, but 470 kJ/mol in benzene.

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In addition, the vacant #"sp"^2# orbital is in the plane of the ring.

It cannot overlap with the orbitals of the #π# system, so it cannot be stabilized by resonance.

The phenyl cation is a high-energy, unstable species.