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11.10 Reactions of Arenes: A Preview

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1 11.10 Reactions of Arenes: A Preview
1. Some reactions involve the ring. 2. In other reactions the ring is a substituent. 1

2 1. Reactions involving the ring
a) Reduction Catalytic hydrogenation (Section 11.4) Birch reduction (Section 11.11) b) Electrophilic aromatic substitution (Chapter 12) c) Nucleophilic aromatic substitution (Chapter 23) 2. The ring as a substituent (Sections ) 2

3 Reduction of Benzene Rings
catalytic hydrogenation (Section 11.4) H Birch reduction (Section 11.11) H H 3

4 11.11 The Birch Reduction 4

5 Birch Reduction of Benzene
Na, NH3 CH3OH (80%) Product is non-conjugated diene. Reaction stops here. There is no further reduction. Reaction is not hydrogenation. H2 is not involved in any way. 5

6 Mechanism of the Birch Reduction (Figure 11.8)
Step 1: Electron transfer from sodium H H •• + + Na+ Na 6

7 Mechanism of the Birch Reduction (Figure 11.8)
Step 2: Proton transfer from methanol H H H •• H H OCH3 H •• H 6

8 Mechanism of the Birch Reduction (Figure 11.8)
Step 2: Proton transfer from methanol H H H H H H •• H H H H H H OCH3 H •• H OCH3 •• 6

9 Mechanism of the Birch Reduction (Figure 11.8)
Step 3: Electron transfer from sodium H + Na 6

10 Mechanism of the Birch Reduction (Figure 11.8)
Step 3: Electron transfer from sodium H + Na H H H •• + Na+ H H H H 6

11 Mechanism of the Birch Reduction (Figure 11.8)
Step 4: Proton transfer from methanol OCH3 H •• H H H •• H H H H 6

12 Mechanism of the Birch Reduction (Figure 11.8)
Step 4: Proton transfer from methanol OCH3 H •• OCH3 •• H H H H •• H H H H 6

13 Birch Reduction of an Alkylbenzene
C(CH3)3 H C(CH3)3 Na, NH3 CH3OH (86%) If an alkyl group is present on the ring, it ends up as a substituent on the double bond. 5

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