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![Page 1: Created by Professor William Tam & Dr. Phillis Chang Ch. 17 - 1 Chapter 17 Carboxylic Acids and Their Derivatives NucleophilicAddition–Elimination at the.](https://reader033.fdocuments.in/reader033/viewer/2022061612/56649ed95503460f94be7d20/html5/thumbnails/1.jpg)
Created byProfessor William Tam & Dr. Phillis
Chang Ch. 17 - 1
Chapter 17Chapter 17Carboxylic AcidsCarboxylic Acids
and Their Derivativesand Their DerivativesNucleophilicNucleophilic
Addition–EliminationAddition–Eliminationat the Acyl Carbonat the Acyl Carbon
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Ch. 17 - 2
1. Introduction Carboxylic Acid Derivatives
O
R Clacid chloride
O
R OHcarboxylic acid
O
R OR'ester
O
R NR'2amide
O
R O R'
O
acid anhydride
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Ch. 17 - 3
2. Nomenclature and PhysicalProperties
Nomenclature of Carboxylic Acids and Derivatives.● Rules:
Carboxylic acid as parent (suffix): ending with “–oic acid”
Carboxylate as parent (suffix): ending with “–oate”
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Ch. 17 - 4
Most anhydrides are named by dropping the word acid from the name of the carboxylic acid and then adding the word “anhydride”
Acid chloride as parent (suffix): ending with “–oyl chloride”
Ester as parent (suffix): ending with “–oate”
Amide as parent (suffix): ending with “amide”
Nitrile as parent (suffix): ending with “nitrile”
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Ch. 17 - 5
Examples:
O
OHEthanoic acid(acetic acid)
O
OCH3
Methyl propanoate
O
NH'2Ethanamide
O
O
O
Ethanoic anhydride(acetic anhydride)
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Ch. 17 - 6
Examples:
Sodium benzoate
Ethanenitrile
O Na
O Cl
O
Benzoyl chloride
H3C C N
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Ch. 17 - 7
2C.2C. Acidity of Carboxylic AcidsAcidity of Carboxylic Acids
O
R OH
pKa ~ 4-5
Compare:
● pKa of H2O ~ 16
● pKa of H2CO3 ~ 7
● pKa of HF ~ 3
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Ch. 17 - 8
When comparing acidity of organic compounds, we compare the stability of their conjugate bases. The more stable the conjugate base, the stronger the acid.
pKa
CH3COOH CH3CH2OH
4.75 16
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Ch. 17 - 9
+ H2O
O
CH3 O H
A1
+ H3O+
O
CH3 O
B1
A2
+ H2OCH3CH2 O H
B2
+ H3O+CH3CH2 O
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Ch. 17 - 10
The conjugate base B1 (acetate) is more stable (a weaker base) than B2 (ethoxide) due to resonance stabilization of the acetate anion.
O
CH3 O
O
CH3 O
O
CH3 O
●Thus, acetic acid (A1) is a stronger acid than ethanol (A2).
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Ch. 17 - 11
Acidity of Carboxylic Acids, Phenols and Alcohols:
OH
O OH
OH
pKa = 4.20 pKa = ~ 10 pKa = ~ 17
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Ch. 17 - 12
OH
O
H2O+
Acidity of Carboxylic Acids, Phenols and Alcohols:
O
O
H3O++
O
O
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Ch. 17 - 13
Acidity of Carboxylic Acids, Phenols and Alcohols:
OH
H2O+
H3O++
O
O O O
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Ch. 17 - 14
Acidity of Carboxylic Acids, Phenols and Alcohols:
OH
H2O+ H3O++
O
(NO resonance stabilization)
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Ch. 17 - 15
Question If you are given three unknown
samples: one is benzoic acid; one is phenol; and one is cyclohexyl alcohol; how would you distinguish them by simple chemical tests ?●Recall: acidity of
OH
O OH
OH
> >
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Ch. 17 - 16
O
R OH Na OH+
O
R O Na+ H2O
(soluable in water)
OH
+ NaOH
OH
+ NaOH
(immisciblewith H2O)
O Na
(soluble in water)
No Reaction
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Ch. 17 - 17
O
OH
+ NaHCO3
O
O Na
+ CO2(g) + H2O
(gas evolved)
OH
+ NaHCO3 No Reaction
OH
+ NaHCO3 No Reaction
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Ch. 17 - 18
pKa 0.70 1.48
O
OH
ClCl
ClO
OH
HCl
ClO
OH
HH
ClO
OH
HH
H> > >
2.86 4.76
Stability of conjugate bases:
O
O
ClCl
ClO
O
HCl
Cl>
O
O
HH
Cl>
O
O
HH
H>>>
> >> >
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Ch. 17 - 19
4-Chlorobutanoic acid(pKa = 4.50)
O
OHCl
2-Chlorobutanoic acid(pKa = 2.85)
O
OH
Cl3-Chlorobutanoic acid
(pKa = 4.05)
O
OH
Cl
>
> > >>
> >>
>
More Examples:
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Ch. 17 - 20
2D.2D.Dicarboxylic AcidsDicarboxylic Acids
HO2C CO2H
HO2CCH2CO2H
HO2C(CH2)4CO2H
CO2H
CO2H
StructureCommon
Name mp (oC) pK1
pKa
(at 25oC)
pK2
Oxalic acid
Malonic acid
Adipic acid
Phthalic acid
189 dec
136
153
206-208 dec
1.2
2.9
4.4
2.9
4.2
5.7
5.6
5.4
Note: pK1 is always lower than pK2.
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Ch. 17 - 21
2J.2J. Spectroscopic Properties ofSpectroscopic Properties ofAcyl CompoundsAcyl Compounds
IR Spectra● The C=O stretching band occurs at
different frequencies for acids, esters, and amides, and its precise location is often helpful in structure determination.
● Conjugation and electron-donating groups bonded to the carbonyl shift the location of the C=O absorption to lower frequencies.
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Ch. 17 - 22
IR Spectra● Electron-withdrawing groups
bonded to the carbonyl shift the C=O absorption to higher frequencies.
● The hydroxyl groups of carboxylic acids also give rise to a broad peak in the 2500-3100-cm-1 region arising from O–H stretching vibrations.
● The N–H stretching vibrations of amides absorb between 3140 and 3500 cm-1.
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Ch. 17 - 23
IR Absorbances:
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Ch. 17 - 24
IR Spectrum:
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Ch. 17 - 25
1H NMR Spectra● The acidic protons of
carboxylic acids are highly deshielded and absorb far downfield in the 10-12 region.
● The protons of the carbon of carboxylic acids absorb in the 2.0-2.5 region.
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Ch. 17 - 26
H1 NMR Spectrum:
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Ch. 17 - 27
13C NMR Spectra:● The carbonyl carbon of
carboxylic acids and their derivatives occurs downfield in the 160-180 region (see the following examples), but not as far downfield as for aldehydes and ketones ( 180-220).
● The nitrile carbon is not shifted so far downfield and absorbs in the 115-120 region.
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Ch. 17 - 28
13C NMR chemical shifts for the carbonyl or nitrile carbon atom.
177.2
O
CH3C OH
O
CH3C OEt
O
CH3C Cl
O
CH3C NH2
H3C C N
170.7 170.3
172.6 117.4
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Ch. 17 - 29
3. Preparation of Carboxylic Acids
By oxidation cleavage of alkenes:● Using KMnO4
Ph
Ph O
O
OH
OH
1. KMnO4, OH , heat
2. H3O+
+
● Using ozonolysis
1. O3
2. H2O2
HHO OH2CrO4
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Ch. 17 - 30
By oxidation of aldehydes & 1o alcohols:● e.g.H
O
OH
O
1. Ag2O
2. H3O+
OH O
OH
1. KMnO4, OH , heat
2. H3O+
H
O
OHorH2CrO4
OH
O
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Ch. 17 - 31
By oxidation of alkyl benzene:
1. KMnO4, OH , heat
2. H3O+
ROH
O
(R = 1o or 2o alkyl groups)
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Ch. 17 - 32
By oxidation of benzene ring:● e.g.
1. O3, CH3COOH
2. H2O2, NaOHOH
O
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Ch. 17 - 33
By hydrolysis of cyanohydrins and other nitriles:● e.g.
H+
H2OPh CH3
O
Ph CH3
NC OH
Ph CH3
C OH
O
HOHCN
H+
H2O, heat
HCNBr CN C
OH
O
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Ch. 17 - 34
By carbonation of Grignard reagents:● e.g.
1. CO2
2. H3O+
Br
OH
O
Mg
Et2O
MgBr
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Ch. 17 - 35
4. Acyl Substitution: Nucleophilic Addition-Elimination at the Acyl Carbon
NuO
R Y+
This nucleophilic acyl substitution occurs through a nucleophilic addition-elimination mechanism.
O
RY
Nu
Y
O
R Nu+
(Y = leaving group, e.g. OR, NR2, Cl)
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Ch. 17 - 36
This type of nucleophilic acyl substitution reaction is common for carboxylic acids and their derivatives.
O
R Clacid chloride
O
R OHcarboxylic acid
O
R OR'ester
O
R NR'2amide
O
R O R'
O
acid anhydride
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Ch. 17 - 37
Unlike carboxylic acids and their derivatives, aldehydes & ketones usually do not undergo this type of nucleophilic acyl substitution, due to the lack of an acyl leaving group.
O
R Ya carboxylic acid
derivative
O
R H
O
R R'
A good leavin
g group
Not a good leaving group
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Ch. 17 - 38
Relative reactivity of carboxylic acid derivatives towards nucleophilic acyl substitution reactions.● There are 2 steps in a
nucleophilic acyl substitution The addition of the
nucleophile to the carbonyl group.
The elimination of the leaving group in the tetrahedral intermediate.
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Ch. 17 - 39
● Usually the addition step (the first step) is the rate-determining step (r.d.s.). As soon as the tetrahedral intermediate is formed, elimination usually occurs spontaneously to regenerate the carbonyl group.
● Thus, both steric and electronic factors that affect the rate of the addition of a nucleophile control the reactivity of the carboxylic acid derivative.
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Ch. 17 - 40
● Steric factor:
O
Cl
O
Cl>reactivity of
e.g.
● Electronic factor: The strongly polarized acid
derivatives react more readily than less polar ones.
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Ch. 17 - 41
● Thus, reactivity of
● An important consequence of this reactivity: It is usually possible to
convert a more reactive acid derivative to a less reactive one, but not vice versa.
O
R Cl
O
R O R'
O O
R OR'
O
R NR'2
most reactive
>
least reactive
> >
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Ch. 17 - 42
5. Acyl Chlorides
5A.5A. Synthesis of Acyl ChloridesSynthesis of Acyl Chlorides
Conversion of carboxylic acids to acid chlorides: O
R Cl
O
R OH
● Common reagents SOCl2 (COCl)2
PCl3 or PCl5
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Ch. 17 - 43
OCl
O
O
R
O
Cl
OCl
O
O
R
O
Cl
O
R OH
ClCl
O
O
● Mechanism:
OCl
O
O
R
O
O
R Cl+ CO2 + CO + Cl
Cl
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Ch. 17 - 44
Nucleophilic acyl substitution reactions of acid chlorides.● Conversion of acid chlorides to
carboxylic acids:
O
R Cl
O
R OH+ H2O
base
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Ch. 17 - 45
O
R OHB H +
O
R OH
H
OH
R OHCl
O
RCl
OH
H
O
R Cl H2O
● Mechanism:
B:
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Ch. 17 - 46
● Conversion of acid chlorides to other carboxylic derivatives:
O
R Cl
O
R OR'
O
R NR'2
O
R O R'
O
O
R' O Na
(ester)
(amide)
(acid anhydride)
R'OH
pyridine
R'2NH
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Ch. 17 - 47
6. Carboxylic Acid Anhydrides
6A.6A.Synthesis of Carboxylic AcidSynthesis of Carboxylic AcidAnhydridesAnhydrides
O
R' Cl
O
R OH N
+
+ +
O
R O R'
O
N
H
Cl
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Ch. 17 - 48
O
R' Cl
O
R O Na++
O
R O R'
ONa Cl
OH
OH
O
O
300oC+O
O
OSuccinicacid
Succinicanhydride
H2O
230oC
OH
OHO
O
O
O
O
H2O
Phthalicacid
Phthalic anhydride(~100%)
+
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Ch. 17 - 49
6B.6B. Reactions of Carboxylic AcidReactions of Carboxylic AcidAnhydridesAnhydrides
Conversion of acid anhydrides to carboxylic acids:
O
HO R'
O
R OH+
O
R O R'
O+ H2O
H+
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Ch. 17 - 50
O
R OH
O
R O R'
OH
OH
R O R'
O
OHH
O
R O R'
O H+
● Mechanism:
H2O
OH
R O R'
O
OHH
R'COOH+
O
R OH
HH2O
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Ch. 17 - 51
Conversion of acid anhydrides to other carboxylic derivatives:
O
R O R'
O
O
R OR'
O
R OH
O
R NR'2
O
R O NR'2H2
R'OH
R2'NH
+
+
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Ch. 17 - 52
7. Esters
7A.7A.Synthesis of Esters: EsterificationSynthesis of Esters: Esterification
O
R OR'
O
R OH+ R'OH
H++ H2O
This is called the Fischer Esterification.
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Ch. 17 - 53
OH2
R OR'HO
O
R OH
H
"activated"
O
R O
H+
H
Mechanism:
R'OH
H2O
OH
R OH
OHR'
O
R OR'
HO
R OR'
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Ch. 17 - 54
Esters from acyl chlorides:
O
OEt
+ EtOH
+
e.g.
N
+
N
H
Cl
O
Cl
Benzoylchloride
Ethyl benzoate(80%)
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Ch. 17 - 55
Esters from carboxylic acid anhydrides:
OH
+
+
O
O
Benzoylalcohol
O
O
O
O
OH
Aceticanhydride
Benzoyl acetate
e.g.
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Ch. 17 - 56
7B.7B. Base-Promoted Hydrolysis ofBase-Promoted Hydrolysis ofEsters: SaponificationEsters: Saponification
Hydrolysis of esters under basic conditions: saponification
O
R O+
O
R OR'
OH
H2OR'OH
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Ch. 17 - 57
Mechanism
O
R OR' OH
O
R OR'HO
O
R OH + OR'
O
R O+R'OH
H+O
R OH
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Ch. 17 - 58
Hydrolysis of esters under acidic conditions
O
R OH+
O
R OR'
H+
H2OR'OH
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Ch. 17 - 59
O
R OH
O
R OR'
HOH
R OR'O
HH
O
R OR'
H+
Mechanism
H2O
OH
R OR'
OHH
R'OH+
O
R OH
HH2O
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Ch. 17 - 60
7C.7C. LactonesLactones Carboxylic acids whose
molecules have a hydroxyl group on a or carbon undergo an intramolecular esterification to give cyclic esters known as - or -lactones
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Ch. 17 - 61
O H
O H
O H
R
R OH
HO O
a -hydroxyacid
H AO
OHO H
R
H
O
O
R
+ O H
H
H
O
O
R
++A O H
H
H
a -lactone
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Ch. 17 - 62
Lactones are hydrolyzed by aqueous base just as other esters are
H+/H2O
HA, slight excess
O
O
C6H5
C6H5O
O
OH
C6H5OH
O
OH
0oCHA, exactly1 equiv.
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Ch. 17 - 63
8. Amides8B.8B.Amides from Acyl ChloridesAmides from Acyl Chlorides
O
R Cl
:NHR'R"
O
R ClN
R'
R"H
O
R N R'
H
R":Cl:
R"R'HN:
Cl + R'R"NH2 +
O
R NR"
R'
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Ch. 17 - 64
8C.8C. Amides from CarboxylicAmides from CarboxylicAnhydridesAnhydrides
R O R
O O+ N
R"
H R'2
N
R"
R'R
O O
R O
H
N R'H
R"
+
R', R" can be H, alkyl, or aryl.
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Ch. 17 - 65
+ 2 NH3O
O
O
H2O
warm O NH4
NH2
O
O
OH
NH2
O
OPhthalamic acid
(81%)
Phthalamicanhydride
Ammoniumphthalamate
(94%)H3O
+
(- NH4+)
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Ch. 17 - 66
+ H2O
OH
NH2
O
O
Phthalamic acid Phthalimide(~ 100%)
150-160oCN H
O
O
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Ch. 17 - 67
8D.8D.Amides from EstersAmides from Esters
R' and/ or R" may be H.
R OR'"
O+ N
R"
H R'N
R"
R'R
O
+ R'"OH
OMe
O
+
MeNH2
heat
N
O
Me
HMeOH
e.g.
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Ch. 17 - 68
8E.8E. Amides from Carboxylic Acids andAmides from Carboxylic Acids andAmmonium CarboxylatesAmmonium Carboxylates
R OH
O
+ NH3
NH2R
O
+H2O
R O NH4
O
heat
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Ch. 17 - 69
DCC-Promoted amide synthesis
R OH
O
NR
O
+ DCU1. DCC
2. R'NH2R'
H
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Ch. 17 - 70
C O C
N
NR
OH
C6H11
C6H11
:
::
::
:R C
O
O
+
H
:
:
: :
N
C
N
C6H11
C6H11
:
:
Dicyclohexyl-carbodiimide
(DCC)
Mechanism
C O C
N
NR
OH
C6H11
C6H11
:
::
:
::
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Ch. 17 - 71
Mechanism (Cont’d)
C O C
N
NR
OH
C6H11
C6H11
:
::
::
:
O
CR O C
NHC6H11
N C6H11
::
::
::
proton
transfer
reactive intermediate
R' NH2:
O C
NHC6H11
N C6H11
::
::
::C
NH2
R
O
R'
:
R C
NHR'
O::
+ O C
NHC6H11
NHC6H11::
::
N,N'-Dicyclohexylurea(DCU)
an amide
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Ch. 17 - 72
8F.8F. Hydrolysis of AmidesHydrolysis of Amides
O
R NH2
O
R OHNH4
H+
H2O, heat+
Acid hydrolysis of amides
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Ch. 17 - 73
O
R NH2
HOH
R NH2O
HH
:
:O
R NH2
: H+
Mechanism
H2O
:
OH
R NH3HO
:
+ NH3
:O
R OH
H:O
R OH
:
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Ch. 17 - 74
Basic hydrolysis of amides
O
R NH2
O
R ONH3
OH
H2O, heat+
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Ch. 17 - 75
O
R NH2HO
O
R OH NH2+
O
R NH2
OH
Mechanism
NH3 +
O
R O
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Ch. 17 - 76
8G.8G.Nitriles from the Dehydration ofNitriles from the Dehydration ofAmidesAmides
This is a useful synthetic method for preparing nitriles that are not available by nucleophilic substitution reactions between alkyl halides and cyanide ions
:O
R NH2
:
:
P4O10 or (CH3CO)2O
heat( H2O)
R C N: H3PO4(or CH3CO2H)(a nitrile)
+
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Ch. 17 - 77
e.g.
NH2
O
P4O10
dehydration
C N
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Ch. 17 - 78
Example● Synthesis of C N
CNBrNaCN
DMSO
1o alkyl bromide SN2 reaction with ⊖CN works fine
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Ch. 17 - 79
But synthesis ofCN
NaCN
DMSO
BrNo Reaction!
3o alkyl bromide No SN2 reaction
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Ch. 17 - 80
Solution
dehydration
Br 1. Mg, Et2O
2. CO2
3. H3O+
OH
O
1. SOCl22. NH3
NH2
O
P4O10
CN
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Ch. 17 - 81
8H.8H.Hydrolysis of NitrilesHydrolysis of Nitriles
base or acid
H2O, heatC NR
O
R OH
Catalyzed by both acid and base
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Ch. 17 - 82
Examples
CNOH
O
H2SO4
H2O,
(82%)
CNOH
O
2. H3O+
1. NaOH, H2O,
(68%)
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Ch. 17 - 83
R C N:H
OH H:
Mechanism
H2O
:
R C NH +R C NH
H
O H::
slow
O
CR NH
H
H
:
:
O
CR NH
H:
:
:H
OH H: +O
CR NH2
H:
:
:
O
CR NH2
H: O
R OH
+ NH4several steps
(amide hydrolysis)
protonated nitrile
protonatedamide
amidetautomer
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Ch. 17 - 84
O
R
O
NH2
:
HH OH OH
O
R
OH
NH2
:
H
NH
R OH
:
+ O H:::
O
R
O
NH2
:
R C N:
O H:::
MechanismN
R OH
:: H OH
OH
R
OH
NH::HHOHO
HOHHO
O
R O+ NH3 + OH
H OH
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Ch. 17 - 85
8I.8I. LactamsLactams
NH
O
NHNH
OO
a -lactam a -lactam a -lactam
Penicillin G
Ampicillin
Penicillin V
N
S CH3
CH3
CO2HO
N
H
R
O
R = C6H5CH2
R = C6H5CH
NH2
R = C6H5OCH2
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Ch. 17 - 86
9. Derivatives of Carbonic Acid9A.9A.Alkyl Chloroformates and Alkyl Chloroformates and
Carbamates (Urethanes)Carbamates (Urethanes)
Alkyl chloroformate
alkylchloroformate
ROH + + HCl
O
Cl Cl
O
RO Cl
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Ch. 17 - 87
e.g.
+HCl
O
RO Cl
OH
O Cl
O
+
Benzylchloroformate
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Ch. 17 - 88
Carbamates or urethanes
a carbamate(or urethane)
R'NH2+
O
RO Cl OH
O
RO NHR'
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Ch. 17 - 89
Protection
O Cl
O
+R NH2OH ON
O
R
H
Deprotection+R NH2
ON
O
R
H
CO2 +
+R NH3 CO2 +Br
H2, Pd
HBr, CH2CO2H
protected amine
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Ch. 17 - 90
10.Decarboxylation of CarboxylicAcids
decarboxylation+ CO2
O
R OHR H
100-150oC+ CO2
O
R OH
O O
R
A -keto acid
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Ch. 17 - 91
There are two reasons for this ease of decarboxylation
CO2
R
O
O
OH
R
OH
O
R
-keto acid enol ketone
CO2
R
O
O
O O
R
: : :
: :
:
O
R
: :
HA
O
R
: ::
acylacetate ion
resonance-stabilizedanion
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Ch. 17 - 92
11.Chemical Tests for AcylCompounds
OH
O OH
OH
> >
Recall: acidity of
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Ch. 17 - 93
O
R OH Na OH+
O
R O Na+ H2O
(soluable in water)
OH
+ NaOH
OH
+ NaOH
(immisciblewith H2O)
O Na
(soluble in water)
No Reaction
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Ch. 17 - 94
O
OH
+ NaHCO3
O
O Na
+ CO2(g) + H2O
(gas evolved)
OH
+ NaHCO3 No Reaction
OH
+ NaHCO3 No Reaction
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Ch. 17 - 95
12.Polyesters and Polyamides:Step-Growth Polymers
HO OH
O
HO
O
OH
O
O
O
O
-H2O
+
(a polyester)
nm
mn
Polyesters
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Ch. 17 - 96
H2N N
O
Cl
O
Cl
O
N
O
N
-HCl
H
H
H H
+
(a polyamide)
nm
mn
Polyamides
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Ch. 17 - 97
HOOH
O
O
+ nn H2NNH2
heat
NN
O
O
H
Hn
+ 2n H2O
(Nylon 66)
Example: Nylon 66
● Applications: clothing, fibers, bearings
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Ch. 17 - 98
+ nnOCH3
O
CH3O
O
HOOH
200oC
O
OO
O
n(Dacron)
+ 2n CH3OH
Example: Dacron (Mylar)
● Applications: film, recording tape
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Ch. 17 - 99
13. Summary of the Reactions of Carboxylic Acids and Their Derivatives
R OH
O
Reactions of carboxylic acids
NaOH or NaHCO3 or other bases
O
CR O
R'OH, H+,
O
CR OR'
SOCl2or PCl3or PCl5
O
CR Cl
O
R'base
Cl
O
CR O
CR'
O
1. LiAlH4
2. H2O, H+
RCH2OH
1. P, X22. H2O
O
COH
R
X
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Ch. 17 - 100
R Cl
O
Reactions of acyl chlorides
R OH
O
H2O
R OR'
O
R'OH, base
R O
O
R'
O
R'COOHbase
R NR'
O
R'2NH
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Ch. 17 - 101
R Cl
O
Reactions of acyl chlorides (Cont’d)
R OH
1. LiAlH4
2. H3O+
R H
O
1. LiAlH(OtBu)3, -78oC
2. H3O+
OH
R R'R'
1. R'MgX
2. H3O+
R
O
benzeneAlCl3
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Ch. 17 - 102
R O R'
O O
Reactions of acid anhydrides
H2O
O
R'HO
O
R OH+
R"OH
O
R'HO
O
R OR"+
R"2NH
O
O NR"2H2R'
O
R NR"+
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Ch. 17 - 103
O
R OR'
Reactions of esters
O
R OH
H2O, H+,
1. OH-
2. H2O, H+
O
R OH
R"OH, H+, O
R OR"
NH3O
R NH2
OH
R R"R"
1. R"MgX
2. H3O+
1. LiAlH4
2. H3O+
R OH1. DIBAL, -78oC
2. H3O+
O
R H
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Ch. 17 - 104
R C N
Reactions of nitriles
H+, H2O,
O
R OH
OH , H2O,
O
R O
LiAlH(OtBu)3
or DIBAL, -78oC
1.
2. H3O+
O
R H
1. LiAlH4
2. H3O+
R NH2
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Ch. 17 - 105
O
R NR'
R'
Reactions of amidesO
R OH
H2O, H+ or OH-
+ HNR'2
1. LiAlH4
2. H3O+
R NR'2
P4O10 (P2O5)
or Ac2O, D
(R' = H only)
C NR
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Ch. 17 - 106
END OF CHAPTER 17