What is the explanation for the relative stabilities of methyl, primary, secondary, and tertiary carbocations?

Question

What is the explanation for the relative stabilities of methyl, primary, secondary, and tertiary carbocations?

1 Answer

Impact of this question

4738 views around the world

You can reuse this answer
Creative Commons License

Answer 1 · 2015-10-19T21:00:59

Inductive Effect.

Explanation:

Carbocations become more stable when the electron-deficient carbon becomes less deficient. In other words, it is when the electron density around that carbon atom becomes higher.

enter image source here
Image source: Organic Chemistry-Janice Gorzynski Smith 3rd Ed

If a carbocation is connected to electron-donating groups, these groups will pump electrons to this carbon atom to compensate for the loss of the electron density around it.

Alkyl groups in general are electron-donating groups by inductive effect. Inductive effect by definition is the transfer of electrons through $σ$ $sigma$ bonds.

Therefore, the higher the number of alkyl groups (or in this case methyl groups) connected to the carbocation, the more stable it becomes, therefore, we can rank the stability as follows:

${(C H_{3})}_{3} C^{+} > {(C H_{3})}_{2} C H^{+} > C H_{3} C H_{2}^{+} > C H_{3}^{+}$ $(CH_3)_3C^+ > (CH_3)_2CH^+ > CH_3CH_2^+ > CH_3^+$

Science

Math

Humanities

... and beyond

What is the explanation for the relative stabilities of methyl, primary, secondary, and tertiary carbocations?

1 Answer

Explanation:

Related questions

Impact of this question