Reactions of Phenol
- Phenols can undergo many types of reactions as both the electron-rich benzene ring and the polar -OH group can participate in chemical reactions
- Some of the reactions of phenols include:
- With bases
- With reactive metals
- With diazonium salts
- Nitration
- Bromination
Reactions of the -OH group in phenols
- The -OH group in phenols has a slightly acidic character
- It can therefore act as an acid and take part in acid-base reactions
Reaction with bases
- Phenols are only slightly soluble in water due to the large non-polar benzene ring
- However, they do dissolve in alkaline solutions and undergo acid-base reactions with bases to form a soluble salt and water
Phenol in acid-base reactions
Phenols are weak acids and undergo acid-base reactions in alkaline solutions
Reaction with reactive metals
- Molten phenols react vigorously with reactive metals such as sodium (Na)
- This is also an acid-base reaction
- Now, a soluble salt is formed and hydrogen gas is given off
Phenol with metals reaction
Molten phenols react vigorously with reactive metals to form a soluble salt and hydrogen gas
Reaction with diazonium ions
- Diazonium ions are very reactive compounds containing an -N2+ group
- When phenols are dissolved in sodium hydroxide (NaOH), a solution of sodium phenoxide is obtained
- This solution is cooled in ice and cold diazonium ion is added to the sodium phenoxide
- After the reaction has occurred, a yellow-orange solution or precipitate of an azo compound is formed
- These are compounds in which two benzene rings are linked by a nitrogen bridge
Phenol in diazonium ion reactions
Azo compounds are formed from the reaction of phenols with diazonium ions
Reactions of the aromatic ring in phenols
- Phenols react more readily with electrophiles compared to benzene
- This is because one of the lone pairs of electrons on the oxygen atom in -OH overlaps with the π bonding system
- This increases the electron density of the benzene ring making it more susceptible to electrophilic attack
- The -OH group in phenols is activating and directs incoming electrophiles to the 2, 4, and 6 positions
Nitration
- Phenols can undergo electrophilic substitution reactions when reacted with dilute nitric acid (HNO3) at room temperature to give a mixture of 2-nitrophenol and 4-nitrophenol
- When concentrated HNO3 is used, the product will be 2,4,6-trinitrophenol instead
- A hydrogen atom in the benzene ring is substituted by a nitro (-NO2) group
- This is also known as the nitration of phenol
Phenol in nitration reactions
Phenols undergo nitration when reacted with dilute HNO3 at room temperature
Bromination
- Phenols also undergo electrophilic substitution reactions when reacted with bromine water at room temperature
- Phenol decolourises the orange bromine solution to form a white precipitate of 2,4,6-tribromophenol
- This is also known as the bromination of phenol
Phenol in bromination reactions
Phenols undergo bromination when reacted with bromine water at room temperature