π 1. Alcohols (Functional Group -OH) π§
Structure and Functional Group:
- Alcohols contain a hydroxyl group (-OH) attached to a saturated carbon atom.
- General formula: R-OH.
Preparation of Alcohols:
- Hydration of Alkenes:
- Alkene + HβO (acid catalyst) β Alcohol.
- Example: Ethene β Ethanol.
- Reduction of Carbonyl Compounds:
- Aldehydes and ketones can be reduced using reducing agents like NaBHβ to form alcohols.
- Fermentation:
- Glucose β Ethanol + COβ (in the presence of yeast).
Chemical Properties of Alcohols:
- Oxidation:
- Primary alcohols β Aldehydes β Carboxylic acids.
- Secondary alcohols β Ketones.
- Tertiary alcohols do not undergo oxidation.
- Dehydration:
- Alcohols undergo dehydration to form alkenes in the presence of an acid catalyst.
Uses of Alcohols:
- Solvents:
- Ethanol is widely used as a solvent in medicines, perfumes, and paints.
- Fuel:
- Ethanol is used as a biofuel in internal combustion engines.
- Disinfectants:
- Isopropyl alcohol is used as an antiseptic and disinfectant.
πΏ 2. Phenols (Functional Group -OH attached to an aromatic ring) πΊ
Structure and Functional Group:
- Phenols have a hydroxyl group (-OH) attached to a benzene ring.
- General formula: CβHβ OH.
Preparation of Phenols:
- From Chlorobenzene:
- Chlorobenzene + NaOH β Phenol + NaCl (High temperature).
- From Cumene (Isopropylbenzene):
- Cumene hydroperoxide β Phenol + Acetone.
Acidity of Phenols:
- Phenols are more acidic than alcohols due to the ability of the phenoxide ion (CβHβ Oβ») to stabilize the negative charge by resonance with the benzene ring.
Chemical Reactions of Phenols:
- Electrophilic Substitution:
- Phenols react with electrophiles such as bromine to form bromophenols.
- Oxidation:
- Phenols can be oxidized to form quinones.
Uses of Phenols:
- Antiseptics:
- Phenol (Carbolic acid) is used as an antiseptic in medical applications.
- Antioxidants:
- Phenols like butylated hydroxyToluene (BHT) are used as preservatives in food.
- Disinfectants:
- Chloroxylenol, a phenol derivative, is used in detergents and disinfectants.
πΈ 3. Ethers (Functional Group -O-) πΌ
Structure and Functional Group:
- Ethers contain an oxygen atom bonded to two alkyl or aryl groups.
- General formula: R-O-R’.
Preparation of Ethers:
- From Alcohols:
- Dehydration of alcohols in the presence of an acid catalyst.
- Example: 2 Ethanol β Diethyl ether.
- From Alkyl Halides:
- Alkyl halide + Alkoxide ion (ROβ») β Ether.
Chemical Reactions of Ethers:
- Reaction with Acid:
- Ethers react with strong acids to break the C-O bond, forming alcohols or alkyl halides.
- Reaction with Halogens:
- Ethers undergo halogenation in the presence of light to form alkyl halides.
Uses of Ethers:
- Solvents:
- Ethers like diethyl ether are used as solvents in laboratories and pharmaceutical preparations.
- Anesthetics:
- Ether (Ethoxyethane) was historically used as a general anesthetic.
- In Pharmaceuticals:
- Ethers are used in the synthesis of medicines and pharmaceutical products.
π§ Conclusion π§ͺ
- Alcohols, phenols, and ethers are important functional groups in organic chemistry, each with its own unique preparation methods, chemical properties, and industrial applications.
- Alcohols are widely used in solvents, phenols serve as antiseptics and antioxidants, while ethers are essential solvents and have applications in anesthesia and pharmaceuticals.
πΏ