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Limitations on Friedel-Crafts Alkylation

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Presentation on theme: "Limitations on Friedel-Crafts Alkylation"— Presentation transcript:

1 Limitations on Friedel-Crafts Alkylation
There are three major limitations on Friedel-Crafts alkylations. 1. carbocation rearrangements are common.

2 Examples of Carbocation rearangement

3 2. alkylation fails on benzene rings bearing one or more of these strongly electron-withdrawing groups.

4 Examples:

5 Not Friedel-Crafts reactive
3. alkylation fails on benzene rings bearing amine groups. Basic amino groups (–NH2,–NHR, & –NR2) react with lewis acids (AlCl3 ) Not Friedel-Crafts reactive

6 Arenes: Hydrocarbons contain both aliphatic and aromatic parts.
Alkylbenzenes 2. Alkenylbenzenes 3. Alkynylbenzenes

7 Alkylbenzene syntheses: Friedel-Crafts alkylation

8 2-Acylation of Aromatic Rings then reduction of the carbonyl group
by Zn(Hg)/HCl 100 % 10alkylbenzene Method A gives Method B gives Mixture of alkylbenzene Note: method A: acylation then reduction method B: friedel crafts alkylation

9 Reactions of Alkylbenezene on Side chain
1- oxidation: Alkyl side chains can be oxidized to CO2H by strong reagents such as KMnO4 and Na2Cr2O7 if they have a C-H next to the ring Converts an alkylbenzene into a benzoic acid, ArR  ArCO2H

10 2- Free radical halogenation in side chain:
Benzyl carbon Br2 / light Note: halogen atom adds to the benzyl carbon atom (the carbon atom directly bonded with benzene ring

11 Mechanism:

12 Alkenylbenzenes syntheses: 1. modification of side chain

13 Note1: Friedel-Crafts alkylation not normally used for
Note1: Friedel-Crafts alkylation not normally used for alkenylbenzene synthesis Vinyl bromide

14 Reactions of Alkenylbenzenes
1- oxidation

15 2- reduction 3- Addition

16 Note 2:alkenes are more reactive than aromatic rings
In syntheses of alkenylbenzenes, the carbon-carbon double bond must be synthesized after any EAS reactions If is started by EAS in the presence of double bond the addition will take place in stead of halogenation

17 How we can prepare: 1. P- chlorostyrene 2. P-bromobenzoic acid 3. Allylbenzene

18 Answers: 1. P- chlorostyrene

19 2. P-bromobenzoic acid 3. Allylbenzene

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