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Polynuclear Aromatics. Napthalene Naphthalene: nomenclature: Mono substituted:α-1- β- 2- Special names:

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Presentation on theme: "Polynuclear Aromatics. Napthalene Naphthalene: nomenclature: Mono substituted:α-1- β- 2- Special names:"— Presentation transcript:

1 Polynuclear Aromatics

2 Napthalene

3 Naphthalene: nomenclature: Mono substituted:α-1- β- 2- Special names:

4 Heat of hydrogenation is –61 Kcal/mole lower than predicted (resonance stabilization energy). Benzene is –36 Kcal/mole lower than predicted. - 61 = - 36 - 25  the second aromatic ring is less stable.

5 Naphthalene, reactions: 1) oxidation:

6 Note: Because naphthalene is sensitive to oxidation, you cannot make naphthoic acids via oxidation of a side chain.

7 2. Reduction:

8 3. Electrophilic Aromatic Substitution:

9 Electrophilic aromatic substitution (cont.)

10 Why is EAS in naphthalene mostly to the alpha-position?

11 EAS in syntheses of substituted naphthalenes: Alpha-substitution via halogenation or nitration.

12 Beta-substitution via high temp sulfonation or Friedel-Crafts acylation in nitrobenzene.

13 EAS in substituted naphthalenes: a)With an activating group to EAS in the alpha position  4- plus a little 2- in the beta position  1- b)With a deactivating group to EAS  the other ring, usually alpha ( 5- & 8- )

14

15

16 Haworth Synthesis of naphthalene

17 Substituted naphthalenes via Haworth synthesis:

18

19

20

21 Oxidation:

22 Reduction:

23 EAS in anthracene or phenanthrene yields mixtures and is not generally useful. For example, in sulfonation:

24

25 Haworth synthesis of anthracene

26 Haworth synthesis of phenanthrene

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