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Stability of Allylic and Benzylic Cations

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Presentation on theme: "Stability of Allylic and Benzylic Cations"— Presentation transcript:

1 Stability of Allylic and Benzylic Cations
An allylic carbon is an sp3 carbon adjacent to an sp2 carbon of an alkene These carbons can lose a basic substituent and become a carbocation - in the process they become sp2 hybridized Allylic and benzylic cations have delocalized electrons © Prentice Hall 2001 Chapter 6

2 Stability of Allylic and Benzylic Cations
© Prentice Hall 2001 Chapter 6

3 Stability of Allylic and Benzylic Cations
© Prentice Hall 2001 Chapter 6

4 Stability of Allylic and Benzylic Cations
Alkyl substitution at the allylic carbon stabilizes allylic and benzylic cations © Prentice Hall 2001 Chapter 6

5 Stability of Allylic and Benzylic Radicals
Allylic and Benzylic radicals also are stabilized by electron delocalization © Prentice Hall 2001 Chapter 6

6 Chemical Consequences of Electron Delocalization
Markovnikov’s rule makes no prediction in this case The stability of the benzylic cation is such as to exclude the other possible product a secondary benzylic cation a secondary carbocation © Prentice Hall 2001 Chapter 6

7 Chemical Consequences of Electron Delocalization
Rearrangements also are driven by electron delocalization The driving force for the rearrangement is the formation of a more stable secondary benzylic cation © Prentice Hall 2001 Chapter 6

8 Effect of Delocalization on pKa
Carboxylic acids (RCOOH) are much more acidic than and alcohols (ROH) pKa = pKa = 15.9 © Prentice Hall 2001 Chapter 6

9 Effect of Delocalization on pKa
Substituents that withdraw electrons from the oxygen of the OH group, such as (C=O), weaken the bond between O and H, and The resulting carboxylate ion is stabilized by electron delocalization © Prentice Hall 2001 Chapter 6

10 Effect of Delocalization on pKa
© Prentice Hall 2001 Chapter 6

11 Effect of Delocalization on pKa
© Prentice Hall 2001 Chapter 6

12 Effect of Delocalization on pKa
A protonated aniline is more acidic than a protonated cyclohexylamine pKa = 4.6 pKa = 11.2 © Prentice Hall 2001 Chapter 6

13 Effect of Delocalization on pKa
© Prentice Hall 2001 Chapter 6

14 Effect of Delocalization on pKa
© Prentice Hall 2001 Chapter 6

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