FAD1018 W11 — Carboxylic Acids & Derivatives

Week 11 lecture covering carboxylic acids and their derivatives. Source file: W11.pdf from lecture notes folders.

Summary

Study of carboxylic acids, acid chlorides, acid anhydrides, esters, and amides including structure, properties, preparation, and interconversions.

Key Concepts

• Carboxylic Acids & Derivatives — R-COOH and related functional groups

O=CO          formic acid
CC(=O)O       acetic acid
c1ccccc1C(=O)O  benzoic acid

• Acyl Chlorides — R-COCl (most reactive derivatives)

CC(=O)Cl      acetyl chloride

• Acid Anhydrides — (RCO)₂O

CC(=O)OC(=O)C      acetic anhydride

• Esters — R-COOR'

CC(=O)OC       methyl acetate
CC(=O)OCC      ethyl acetate

• Amides — R-CONH₂

CC(=O)N        acetamide

• Nucleophilic Acyl Substitution — Characteristic reaction

Lecture Coverage

1. Carboxylic Acids

Structure and Nomenclature

• -COOH functional group
• IUPAC naming (-oic acid suffix)
• Common names (formic, acetic, benzoic)

Physical Properties

• Hydrogen bonding (dimer formation)

CC(=O)O...O=C(C)O       acetic acid dimer

• Higher boiling points than comparable alcohols
• Water solubility (lower members)
• Acidity (pKa ~4-5)

Acidity Factors

• Inductive effects
• Resonance stabilization of carboxylate anion

CC(=O)[O-]      acetate anion (resonance-stabilized)

• Substituent effects (electron-withdrawing increases acidity)

2. Preparation of Carboxylic Acids

• Oxidation of primary alcohols
• Oxidation of aldehydes
• Hydrolysis of nitriles

CC#N.O>>CC(=O)O.N       nitrile hydrolysis

• Carboxylation of Grignard reagents

C[Mg]Br.O=C=O>>CC(=O)[O-].[Mg+2].[Br-]  Grignard carboxylation

3. Reactions of Carboxylic Acids

a) Salt Formation

• Reaction with bases
• Soap formation

CC(=O)O.[OH-]>>CC(=O)[O-].O           acid + base → salt
CC(=O)[O-].[Na+]                        sodium acetate (soap type)

b) Reduction

• LiAlH₄ reduction to primary alcohols

CC(=O)O>>CCO              carboxylic acid → primary alcohol

• Borane (BH₃) reduction

c) Decarboxylation

• Loss of CO₂
• β-Keto acids and malonic acid derivatives

CC(=O)CC(=O)O      acetoacetic acid (β-keto acid)
O=C(O)CC(=O)O      malonic acid
CC(=O)CC(=O)O>>CC(C)=O.O=C=O    decarboxylation → acetone + CO₂

4. Carboxylic Acid Derivatives

Reactivity Order:

Acyl Chloride > Acid Anhydride > Ester ~ Carboxylic Acid > Amide

a) Acyl Chlorides (Acid Chlorides)

• Preparation: Carboxylic acid + SOCl₂, PCl₅, or PCl₃

CC(=O)O.S(Cl)(Cl)=O>>CC(=O)Cl.S(=O)=O.Cl     SOCl₂ preparation
CC(=O)Cl.CCO>>CC(=O)OCC.Cl                    + alcohol → ester
CC(=O)Cl.N>>CC(=O)N.Cl                         + amine → amide

• Reactions: With alcohols, amines, water, Gilman reagents
• Most reactive derivative

b) Acid Anhydrides

• Preparation: Two carboxylic acids + dehydrating agent
• Reactions: Similar to acyl chlorides but milder
• Cyclic anhydrides (succinic, maleic, phthalic)

O=C1CCC(=O)O1           succinic anhydride
O=C1C=CC(=O)O1          maleic anhydride
O=C1OC(=O)c2ccccc12     phthalic anhydride

c) Esters

• Preparation: Fischer esterification (acid + alcohol)

CC(=O)O.CCO>>CC(=O)OCC.O          Fischer esterification

• Reactions: Hydrolysis (acidic and basic/saponification)

CC(=O)OCC.[OH-]>>CC(=O)[O-].CCO    saponification

• Transesterification
• Reduction to alcohols
• Reaction with Grignard reagents (tertiary alcohols)

d) Amides

• Preparation: Acyl chloride + ammonia/amine, or ester + ammonia

CC(=O)Cl.N>>CC(=O)N.Cl              acyl chloride + ammonia
CC(=O)OCC.N>>CC(=O)N.CCO            ester + ammonia

• Reactions: Hydrolysis (acidic and basic)
• Dehydration to nitriles

CC(=O)N>>CC#N.O                      amide dehydration → nitrile

• Hofmann rearrangement

CC(=O)N.Br.[OH-]>>CN.O=C=O.Br-      Hofmann → primary amine

5. Interconversion of Derivatives

Carboxylic Acid → Acyl Chloride → Ester → Amide
       ↓              ↓              ↓
   Anhydride    Alcohol/Amine   Hydrolysis

6. Important Named Reactions

• Fischer Esterification

CC(=O)O.CCO>>CC(=O)OCC.O

• Saponification

CC(=O)OCC.[OH-]>>CC(=O)[O-].CCO

• Hofmann Rearrangement

CC(=O)N.Br.[OH-]>>CN.O=C=O.Br-

• Gabriel Synthesis (from phthalimide)

O=C1NC(=O)c2ccccc12        phthalimide

Related Topics

• Carbonyl Compounds — Precursors to carboxylic acids
• Amines & Amino Acids — Form amides with carboxylic acids
• Polymer Chemistry — Polyesters and polyamides

*C(=O)*OCCO*                polyester repeating unit
*C(=O)*N*N*                 polyamide repeating unit

Study Notes

[!note] Important organic topic Carboxylic Acids & Derivatives have ~5% mark weight. Focus on reactivity order and interconversions.

Related Course Page

• FAD1018 - Basic Chemistry II