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Transcript 
Hydrolysis of Nitriles
Basic or acidic hydrolysis of a nitrile
produces a carboxylic acid.
Br
NaCN
CN
+
H
H2O
COOH
=>
Acid Derivatives
The group bonded to the acyl carbon
determines the class of compound:
-OH, carboxylic acid
-Cl, acid chloride
-OR’, ester
-NH2, amide
These interconvert via nucleophilic acyl
substitution.
=>
Fischer Esterification
Acid + alcohol yields ester + water.
Acid catalyzed for weak nucleophile.
All steps are reversible.
Reaction reaches equilibrium.
O
COOH
+ CH3CH2OH
+
H
COCH2CH3
+ HOH
=>
Fischer Mechanism (1)
Protonation of carbonyl and attack of
alcohol, a weak nucleophile.
O
COH
+
H
+
OH
OH
COH
COH
+
OH
OH
CH3CH2OH
COH
O+ H
CH2CH3
H
O
R
COH
O
CH2CH3
=>
Fischer Mechanism (2)
Protonation of -OH and loss of water.
+
H
OH
H +
OH
C OH
+
C OH
O
O
O
CH2CH3
CH2CH3
CH2CH3
COH
H
O
C O
R
O
CH2CH3
=>
Acid Chlorides
An activated form of the carboxylic acid.
Chloride is a good leaving group, so
undergoes acyl substitution easily.
To synthesize acid chlorides use thionyl
chloride or oxalyl chloride with the acid.
O
O
C OH
+
O O
C Cl
C C
Cl
Cl
+ HCl + CO + CO2
=>
Esters from Acid Chlorides
Acid chlorides react with alcohols to give
esters in good yield.
Mechanism is nucleophilic addition of the
alcohol to the carbonyl as chloride ion
leaves, then deprotonation.
O
O
CCl
COCH3
+ CH3OH
+ HCl
=>
Amides from Acid Chlorides
Acid chlorides react with ammonia and
amines to give amides.
A base (NaOH or pyridine) is added to
remove HCl by-product.
O
O
CCl
CNHCH3
+ CH3NH2
NaOH
+ NaCl + H2O
=>
Diazomethane
CH2N2 reacts with carboxylic acids to
produce methyl esters quantitatively.
Very toxic, explosive. Dissolve in ether.
O
O
C OH
C OCH
3
+ CH2N2
+ N2
=>
Mechanism for
Diazomethane
=>
Amides from Acids
Amine (base) removes a proton from the
carboxylic acid to form a salt.
Heating the salt above 100C drives off
steam and forms the amide.
O
O
O
C OH CH NH
+
3
2
C O- +NH CH
3
3
C NHCH
3
heat
+ H2O
=>
Reduction to 1 Alcohols
Use strong reducing agent, LiAlH4.
Borane, BH3 in THF, reduces carboxylic acid
to alcohol, but does not reduce ketone.
=>
Reduction to Aldehyde
Difficult to stop reduction at aldehyde.
Use a more reactive form of the acid (an acid
chloride) and a weaker reducing agent,
lithium aluminum tri(t-butoxy)hydride.
O
O
CCl
LiAl[OC(CH3)3]3H
C
H
=>
Alkylation to Form Ketones
React 2 equivalents of an organolithium
reagent with a carboxylic acid.
O
COOH
1) 2 CH3CH2
Li
C CH CH
2
3
2) H2O
=>
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