Polynuclear Hydrocarbons

1. Polynuclear Hydrocarbons

2. Classification of Polynuclear HydrocarbonsPolynuclear Hydrocarbons may be divided into two groups,

3. Polynuclear Hydrocarbons Benzenoid Non- Benzenoid Isolated Fused rings Linear Angular

4. Isolated Ring Polynuclear HydrocarbonsBiphenyl (diphenyl):

5. a) Fittig reactionb) From benzene diazonium sulphate c) From benzidine Preparation of Biphenyl

6. d) Ulmann diaryl synthesis e) By using Arylmagnesium halide

7. Reactions of biphenylBiphenyl undergoes substitution reactions,

8. In biphenyl one ring act as electron donating group and the other act as electron withdrawing group

9. Resonance shows that O- and P- are the most reactive positions towards electrophilic substitution.The electrophilic substitution occurs in 4- position (major) and 2- position (minor) due to steric effect of other benzene ring.The 2nd substitution occurs in the empty ring in 2 or 4- position.e.g.

10. Problem:Explain the products formed when biphenyl is mononitrated and when it is dinitrated.

11. Biphenyl derivatives (1) Benzidine (4, 4`-diaminobiphenyl) (2) Diphenic acid (3) Diphenyl methane

12. Benzidine (4, 4' diaminobiphenyl) Methods of preparation

13. From dihydrazo benzene

14. Q. Show how could you prepare benzidine from benzene? • Answer

15. Uses of Benzidine • preparation of Congo red

16. (2) Diphenic acid Methods of preparation

17. From anthranilic acid

18. Ulmann diaryl synthesis

19. oxidation of Phenanthrene or phenanthraquinone

20. Chemical Reactions

21. 1. with acetic anhydride

22. 2. Conversion of diphenic acid to dflourenone

23. 3. with conc. H2SO4

24. 4. Oxidation of KMnO4

25. 5. with sodalime

26. Atropisomers of biphenyl • Optical isomers produced due to restricted rotation is called atropisomers • Restricted rotation produce when 0- position contains two different bulky groups and hence molecule is optically active.. for example

28. When o- position contains two similar groups, the molecule is optically inactive due to presence of plane of symmetry .. for example

29. (3) Diphenyl methane Methods of preparation

30. 1. Friedel- Crafte

31. 2. From benzophenone

32. Chemical Reactions

33. 1. Nitration

34. 2. Halogenation

35. 3. Oxidation

36. II. Fused System

37. a) Naphthalene

38. Structure elucidation of naphthalene 1- Molecular Formula: C6H8 2- So naphthalene contain the skeleton

39. 3- So nitro group is present in benzene ring

40. 4- The benzene ring in phthalic acid produced by oxidation of aminonaphthalene is not the same ring is that obtained by oxidation of nitronaphthalene.

41. i.e. Naphthalene contains two benzene rings and we can explain this by this equation

42. The structure of naphthalene is confirmed by method of its analysis 1- Howarth method

43. Other way of cyclization

44. The reaction occurs if R is o- or p- directing group such as NH2, NHR, OH, OR, R, halogen. • If R is m- directing group (e.g. NO2, CN, COOH, COCH3, SO3H) no reaction occur. • The above reaction gives  -substituted naphthalene.

45. Synthesis of 1-alkyl naphthalene

46. 2- From -benzylidene – propenoic acid

47. Chemical Reactions of naphthalene

48. 1. Reduction

49. 2. Oxidation

50. 3. Addition of Cl2