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Wednesday, 6 June 2012

Phenol

Phenol
Definition
Aeromatic alcohols are called Phenols.
OR
Those derivations of benzene in which hydrogen atom is replaced by OH group are known as Phenol.
Classification of Phenol
On the basis of hydroxyl group (OH) bonded with benzene ring, Phenol are classified into following three classes.
1. Mono Hydric Phenol
2. Di Hydric Phenol
3. Tri Hydric Phenol
1. Mono Hydric Phenol
Those aeromatic phenols which contains only one OH group are called Mono Hydric Phenol.
2. Di Hydric Phenol
Those aeromatic phenols which contain two OH groups are called Di Hydric Phenol.
Diagram Coming Soon
3. Tri Hydric Phenol
Those aeromatic phenols which contain three OH groups are called Tri Hydric Alcohols.
Preparation
Phenol can be prepared by following methods.
1. From Chloro Benzene (Down’s Process)
When chloro benzene is heated with 10% NaOH solution at 300ºC under 200 atm pressure then sodium Phenoxide is formed, which on further heating with HCl convert into Phenol.
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2. From Benzene Sulphonate
When benzene sulphonate is fused with NaOH at 25ºC ten sodium Phenoxide is formed, which on further heating with HCl convert into Phenol.
Diagram Coming Soon
Physical Properties
1. At ordinary temperature and pressure, phenol exist as colourless, crystalline solid.
2. Phenol has peculiar smell.
3. Phenol is a poisonous compound.
4. The melting point of phenol is 43ºC and its boiling point is 182ºC.
5. Above 68.5ºC Phenol is completely soluble in water.
Chemical Properties
The important chemical reactions of Phenol are
1. Reaction with Sodium Hydroxide (NaOH)
When phenol reacts with NaOH then sodium Phenoxide and water are formed. This reactions shows the acidic nature of phenol.
Diagram Coming Soon
2. Reaction with Zinc Dust
When vapours of phenol are passed through red hot zinc dust then benzene is formed.
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3. Hydrogenation
Introduction of hydrogen in a compound is called Hydrogenation. In presence of catalyst nickle when phenol is heated with hydrogen at about 150ºC then hydrogenation takes place as a result cyclo hexanol is formed.
Diagram Coming Soon
4. Reaction with Bromine Water
In presence of water, when bromine reacts with phenol then 2, 4, 6 – tri bromo phenol is formed.
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5. Reaction with Concentrated Nitic Acid
When phenol reacts with concentrated nitric acid then 2, 4, 6 – tri phenol (Picric Acid) is formed.
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6. Reaction with Dilute Nitric Acid
When Phenol react with dilute nitric acid then a mixture of ortho and Para nitro Phenol is formed.
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7. Reaction with Sulphuric Acid
When phenol reacts with H2SO4 then ortho phenol sulphonic acid and para phenol sulphonic acid are formed. The amount of product depending upon the temperature, lower pressure i.e. (15 – 20ºC) favours the production of ortho phenol sulphonic acid where as high temperature about 100ºC favours the production of para phenol sulphonic acid.
Diagram Coming Soon
Uses
1. Phenol is uses as antiseptic.
2. Phenol is used in the manufacture of soaps, plastics etc.
3. Phenol is used in the preparation of Picric Acid and Aspirin.
4. It is used as link Preservative

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