Carboxylic acids and their derivatives

Required background:Aldehydes, ketonesAcidity of alcoholsReaction mechanisms

Essential for:Aminoacids, peptides

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

O

OH

R H+

+

O

O-

R

O-

O

R

Carboxylic acids are stronger acids, than phenol, because the conjugate base (carboxylate)

is stabilized by the delocalization of the negative charge between two electronegative oxygens.

O

OH

ROH

OHHO3S

< < <

pKa = 16 pKa = 10 pKa = 5 pKa = -1

Acidity trend:

O

OH

RH

+ O+

OH

R

H

C+

O

O

R

H

H

O

O+

R

H

HO

O+

R

H

H

H+

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

O

OH

RH

+O

OCH3

R+ CH3OH

H+

O+

OH

R

H

CH3OH

O

OH

R

H

O+

CH3H

~H+

O+

OH

R

H

OCH3

H

C+

O

R

OCH3

H

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

O

O

R

H

HR +

O

O

H

R

O

NaOH, meltingNa2CO3

NaOH

O

O-

R R- + CO2

NaOHH2O

slight heating

R

OH

+CO2~H+

R

O

O

O

H

OH

O

slight heating

OH

OH

+CO2~H+

OH

O

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

Examples of carboxylic acid derivatives

OCl

O

Br

2-bromopropyl 3-chlorobutanoate

O O

A cyclic ester (lactone)

dihydrofuran-2(3H)-oneO

Cl

propanoyl chloride

O

O O

benzoic anhydride

O

O O

acetic benzoic anhydride

OH

O

H3C CN

acetic acid acetonitrile

NH2

Cl O5-chlorohexanamide

Cl Cl

O

phosgene

NH2 NH2

O

urea

X

O

H

..

X

O-

H

..

Reacts with nucleophiles

Reacts with acids

Reacts with bases

Reactivity with nucleophiles is decreased by the stabilizing conjugation, which depends on the electron donating ability of X

Acid chlorides > anhydrides > esters, acids > amides > nitriles > salts

Reactions of carboxylic acid derivatives with nucleophiles

R X

O

Nu

R X

O-

NuR Nu

O

+ X

Reactions of acid chlorides

Cl

O

NH2

P h C H 2 C H 2 N H 2

P yr id in e

Cl

O-

NH2+

O

NH2+

O

NH

Py

OH

H3C CH3

C H 3 C (O )C l

P yr id in e

O

H3C CH3

O

CH3

75%

H3C

H3CCH3

OH

+

O

Cl P y

O

O

CH3

CH3

CH3

OH+

H3C

S

O

O

Cl

P y

TsCl H3C

S

O

O

O

90%

O

Cl+

O

O-

Na+

O

O

O

60%

Reactions of anhydrides

NH2

OH

+ OO

O

H 2 O

NH

OH

CH3

O

Paracetamol

OHCOOH

+ OO

O

H 2 O

O CH3

O

COOH

Aspirin

O OO C H 3 O H , re flu xCOOH

O

CH3

O

O OO

+NH2 H e a t

O

O

NH

OH

A c e t ic a n h yd r id e

h e a t

O

O

N

Reactions of esters O

O

N H 3

O

NH2

+OH

O

O

O

NHOH +

OH

N H 2 O H

A hydroxamic acid (forms a red complex with Fe(III))

R O

O

R1

R OR1

O-

OHR OH

O

+ R

R O-

O

+ R

Acid-catalyzed hydrolysis of esters is the reaction of esterification, going backwards.

Hydrolysis of carboxylic acid derivatives

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

R

O

OC2H5

1 . L iA lH 4

2 . H + , H 2 O

a source of H-

R CH2OH

H-

R

O-

OC2H5H

R

O

H

H-

R

O-

HH

H+

R

O

NH2

RNH2

1 . L iA lH 4

2 . H 2 O

CN 1 . L iA lH 4

2 . H 2 O

NH2

74%

H2 / Ni

R

O

Cl

P d / C , H 2 , q u in o lin eR

O

H

Al-

H

O

OO

Li+

-78 oC

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

O

O

OHOH

+ NH2

NH2

heat

O

O

OH

NNH

H

H

n

Nylon-6,6

+ OH

OH

heat

Dacron

COOHHOOC

O

O

O

O

OH

H

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

Lipids are compounds of biological origin that dissolve in nonpolar solvents, such as chloroform and diethyl ether. The name lipid comes from the Greek word lipos, for fat. Unlike carbohydrates and proteins, which are defined in terms of their structures, lipids are defined by the physical operation that we use to isolate them. Not surprisingly, then, lipids include a variety of structural types. Examples are the following

Outline

1. Acidity and basicity of carboxylic acids2. Fischer esterification3. Decarboxylation4. Acyl substitution5. Reduction of carboxylic acid derivatives6. Condensation polymers7. Overview of lipids8. Claisen condensation

O

O

1 . N a O C 2 H 5

2 . H +

O O

O75%

CH2-

O

O

O-

O

O

O O O

O

CH-

O O

O

O

O

Base

H+

Claisen condensation