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Heterocyclic Chemistry

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Presentation on theme: "Heterocyclic Chemistry"— Presentation transcript:

1 Heterocyclic Chemistry
Furan and Thiophene Heterocyclic Chemistry

2 Introduction Heterocyclic Chemistry

3 Synthesis of Furan and Thiophene
Heterocyclic Chemistry

4 1- Addition Reactions a) Oxidation
This reaction involves electrophilic addition of bromine in presence of methanol at 2 & 5 positions which is characteristic of 1,3-dienes followed by substitution by methanol. Thiophene is oxidized by peracids to Thiophene-1-oxide and 2-hydroxythiophene oxide. Heterocyclic Chemistry

5 1- Addition Reactions b) Reduction
On the other hand thiophene can not be reduced under the same conditions due to sulfur poison the catalyst and desulphurization occurs with ring opening. However, partial reduction can take place by metals in acidic medium. Heterocyclic Chemistry

6 1- Addition Reactions c) Diels- Alder Reaction:
Reaction of thiophene with maleic anhydride requires more drastic conditions than in case of furan and pyrrole (high pressure and temperature), this is because it is the most aromatic thus it is the least reactive as a diene. The order of reactivity in D.A reaction is as follows: Furan > N-alkyl pyrrole > Pyrrole > Thiophene. Heterocyclic Chemistry

7 Electrophilic Aromatic substitution Reactions
1) Nitration 2) Sulphonation Heterocyclic Chemistry

8 Electrophilic Aromatic substitution Reactions
3) Halogenation Heterocyclic Chemistry

9 Electrophilic Aromatic substitution Reactions
4) Acylation 5) Alkylation It is very low yielding reaction due to formation of polyalkylated products or polymers. Heterocyclic Chemistry

10 Electrophilic Aromatic substitution Reactions
4) Lithiation 5) Diazocoupling: Furan and thiophene can not couple with diazonium salts which shows that they are less reactive than pyrrole. Heterocyclic Chemistry

11 Second Electrophilic Substitution in Furan and Thiophene
Heterocyclic Chemistry

12 Second Electrophilic Substitution in Furan and Thiophene
Heterocyclic Chemistry

13 Second Electrophilic Substitution in Furan and Thiophene
Heterocyclic Chemistry

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