1 carboxylic acids and esters chapter 24 hein * best * pattison * arena colleen kelley chemistry...
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Carboxylic Acids and Esters Chapter 24
Carboxylic Acids and Esters Chapter 24
Hein * Best * Pattison * Arena
Colleen KelleyChemistry DepartmentPima Community College
© John Wiley and Sons, Inc.
Version 1.0
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Chapter Outline24.1 Carboxylic Acids
24.2 Nomenclature and Sources of Aliphatic Carboxylic Acids
24.3 Physical Properties of Carboxylic Acids
24.4 Classification of Carboxylic Acids
24.5 Preparation of Carboxylic Acids
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Chapter Outline (continued)
24.6 Chemical Properties of Carboxylic Acids
24.7 Nomenclature of Esters24.8 Occurrence and
Physical Properties of Esters
24. 9 Polyesters: Condensation Polymers
24.10 Chemical Properties of Esters
24.11 Glycerol Esters
24.12 Soaps and Synthetic Detergents
24.13 Esters and Anhydrides of Phosphoric
Acid
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Carboxylic AcidsCarboxylic Acids
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• The functional group of the carboxylic acid is called a carboxyl group and is represented in the following ways:
OH
O
or -COOH or CO2H
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Nomenclature and Nomenclature and Sources of Sources of Aliphatic Aliphatic
Carboxylic AcidsCarboxylic Acids
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IUPAC Rules for Naming Carboxylic Acids1. To establish the parent name, identify the
longest carbon chain that includes the carboxyl group.
2. Drop the final –e from the corresponding hydrocarbon name.
3. Add the suffix –oic acid.
HCOOH, methanoic acid
CH3COOH ethanoic acid
CH3CH2COOH propanoic acid
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Naming Carboxylic Acids
• Other groups bonded to the parent chain are numbered and named as we have done previously.
CH3CH2CHCH2COOH
CH3
12345
3-methylpentanoic acid
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Nomenclature of Carboxylic Acids
• Use of Greek letters:
CH3CH2CH2CH2COOH12345
CH3CH2CHCOOH
OH
-hydroxybutyric acid2-hydroxybutanoic acid
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Physical Properties of Physical Properties of Carboxylic AcidsCarboxylic Acids
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Physical Properties of Carboxylic Acids
• Each aliphatic carboxylic acid molecule is polar and consists of a carboxylic acid group and a hydrocarbon group (-R).– Carbons 1-4 = water soluble– Carbons 5-8 = slightly water soluble– Carbons 8 and above = virtually insoluble in water
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Physical Properties of Carboxylic Acids
• The comparatively high boiling points for carboxylic acids are due to intermolecular attractions resulting from hydrogen bonding.
R C
OH
O
RC
HO
O
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Physical Properties of Carboxylic Acids
• Carboxylic acids are generally weak acids; that is, they are only slightly ionized in water.
H3CC
OH
O
H3CC
O-
O
+ H2O + H3O+
acetic acid acetate ion
hydronium ion
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Classification of Classification of Carboxylic AcidsCarboxylic AcidsClassification of Classification of Carboxylic AcidsCarboxylic Acids
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Classification of Carboxylic Acids
• saturated monocarboxylic acids• unsaturated carboxylic acids• aromatic carboxylic acids• dicarboxylic acids• hydroxy acids• amino acids
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Unsaturated Carboxylic Acids
• An unsaturated acid contains one or more C=C. – Acrylic acid, CH2=CHCOOH, also called propenoic
acid.
• Even one C=C bond exerts an influence on the physical and chemical properties of the acid.
Ex: stearic acid CH3(CH2)16COOH, mp = 70 C vs.
oleic acid CH3(CH2)7CH=CH(CH2)7COOH, mp = 16 C
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Aromatic Carboxylic Acids• In an aromatic carboxylic acid, the carbon
of the carboxyl group (-COOH) is bonded directly to a carbon in an aromatic ring.
COOHCOOH
CH3
benzoic acid o-toluic acid
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Hydroxy Acids• Hydroxy acids have the functional group
of an alcohol and a carboxylic acid.COOH
OH
o-hydroxybenzoic acidsalicylic acid
CH3CHCOOH
OH
2-hydroxypropanoic acidlactic acid
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Amino Acids• Each amino acid molecule has a carboxyl
group that acts as an acid and an amino group that acts as a base.
• About 20 biologically important amino acids, each with a different group represented by R, are found in nature.
NH2CHCOOH
R
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Preparation of Preparation of Carboxylic AcidsCarboxylic Acids
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Preparation of Carboxylic Acids
• oxidation of an aldehyde or primary alcohol
• oxidation of alkyl groups attached to aromatic rings
• hydrolysis of nitriles
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Oxidation of an Aldehyde or a Primary Alcohol
H
CR
Hprimary (1o)
alcohol
OH[O]
O
CR H + H2O[O]
O
CR OH
[O] = Cr2O72-
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Oxidation of Alkyl Groups Attached to Aromatic Rings
CH3
NaMnO4NaOHheat
COO-Na+
toluene sodium benzoate
CH2CH3
NaMnO4NaOHheat
COO-Na+
ethylbenzene sodium benzoate
+ CO2 (g)
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Hydrolysis of Nitriles
• RCN + 2 H2O RCOOH + NH4+
H+
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Chemical Properties of Chemical Properties of Carboxylic AcidsCarboxylic Acids
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Chemical Properties of Carboxylic Acids
1. Acid-Base reactions
2. Substitution reactions• acid chlorides
• acid anhydrides
• esters
• amides
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Acid-Base Reactions• Because of their ability to form hydrogen
ions in solution, acids in general have the following properties:
1. Sour taste2. Change blue litmus to red and affect other
suitable indicators.3. Form water solutions with pH values less than
7.4. Undergo neutralization reactions with bases for
form water and a salt.
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Acidity of Carboxylic Acids
H3C
C
O
OH + H2O H3C
C
O
O- + H3O+
H3C
C
O
OH + NaOH H3C
C
O
O-Na+ + H2O
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Substitution Reactions
• acid chlorides
• acid anhydrides
• esters
• amides
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Acid Chloride Formation
• Thionyl chloride (SOCl2) reacts with carboxylic acids to form acid chlorides.
RC
OH
O
+ SOCl2
RC
Cl
O
+ SO2 + HCl
carboxylicacid
thionylchloride acid
chloride
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Acid Anhydride Formation•An organic anhydride is formed by the elimination of water from two molecules of carboxylic acid.
RC
OH
O
R'C
HO
O
+
RC
O
O
R'C
O
+ H2O
anhydride
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Ester Formation• An ester is formed by the reaction of an
acid with an alcohol or a phenol; water is also produced in the reaction:
RC
OH
O
R'HO
+
RC
O
O
R'+ H2OH+
carboxylicacid
alcohol ester
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Nomenclature Nomenclature of Estersof Esters
Nomenclature Nomenclature of Estersof Esters
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Nomenclature of Esters• The alcohol part is named first, followed
by the name of the acid modified to end in –ate.
RC
O
O
R'
acid alcohol
H3CC
O
O
CH3
ethanoateoracetate
methyl
methyl ethanoate ormethyl acetate
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Occurrence and Occurrence and Physical Properties Physical Properties
of Estersof Esters
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Properties of Esters• Simple esters derived from monocarboxylic
acids and monohydroxy alcohols are colorless, generally nonpolar liquids or solids.
• Low- and intermediate-molar-mass esters (both acids and alcohols up to about 10 carbons) are liquid with characteristic (usually fragrant or fruity) odors.
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Occurrence and Properties of Esters
• High-molar-mass esters (formed from acids or alcohols of 16 or more carbons) are waxes and are obtained from various plants.– They are used in furniture wax and automobile
wax preparations.– Carnauba wax contains esters of 24-and 28-
carbon fatty acids and 32- and 34-carbon alcohols.
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Polyesters: Polyesters: Condensation Condensation
PolymersPolymers
Polyesters: Polyesters: Condensation Condensation
PolymersPolymers
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Polyesters: Condensation Polymers
• Condensation polymers are formed by substitution reactions between neighboring monomers.
• The polyesters are joined by ester linkages between carboxylic acid and alcohol groups.– The macromolecule formed may be linear or
cross-linked.
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Polyesters: Condensation Polymers
HOOC(CH2)xCOOH + HO(CH2)yOH -C(CH2)xC-O(CH2)yO-
OO
diacid diol polyester
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Chemical Chemical Properties of Properties of
EstersEsters
Chemical Chemical Properties of Properties of
EstersEsters
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Hydrolysis
• The most important reaction of esters is hydrolysis – the splitting of molecules through the addition of water.
• A catalyst is often required.– An acid or base– In living systems, enzymes act as catalysts.
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Acid Hydrolysis
• The hydrolysis of an ester involves the reaction with water to form a carboxylic acid and an alcohol.
RC
HO
O
R'OH
+
RC
O
O
R' + H2OH+
carboxylicacid
alcoholester
or enzyme
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Alkaline Hydrolysis (Saponification)• Saponification is the hydrolysis of an ester by a
strong base (NaOH or KOH) to produce an alcohol and a salt (or soap if the salt formed is from a high-molar-mass acid).
• Notice that in saponification, the base is a reactant and not a catalyst.
O-Na+C
R
O
R'OH
+
RC
O
O
R'+ NaOH H2O
saltalcoholester
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Glycerol EstersGlycerol EstersGlycerol EstersGlycerol Esters
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Fats and Oils• Fats and oils are esters of glycerol and
predominantly long-chain fatty acids.
• Fats and oils are also called triacylglycerols or triglycerides, since each molecule is derived from one molecule of glycerol and three molecules of fatty acid:
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H C O
C OH
C OH
H
H
C R
O
C R'
O
C R"
O
General formula for a triacylglycerol
glycerolportion
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TriacylglycerolThe structural formulas of triacylglycerol molecules differ because:
1. The length of the fatty acid chain varies from 4 to 20 carbons, but the number of carbon atoms in the chain is nearly always even.
2. Each fatty acid may be saturated or unsaturated and may contain one, two, or three C=C.
3. A triacylglycerol may, and frequently does, contain three different fatty acids.
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• The most abundant unsaturated acids in fats and oils contain 18 carbon atoms.
• In all of these naturally occurring unsaturated acids, the configuration about C=C is cis.
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Physical Differences Between Fats & Oils
• Fats are solid; oils are liquid at room temperature
• Fats contain a larger portion of saturated fatty acids whereas oils contain greater amounts of unsaturated fatty acids.– Polyunsaturated means that each molecule of
fat contains several C=C.
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Comparison of Fats & Oils
• Fats come from animal sources:
–Lard from hogs, tallow from cattle and sheep
• Oils come from vegetable sources:
–Olives, corn, peanut, soybean, canola
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Hydrogenation of Glycerides
• Hydrogen adds to the C=C of oil to saturate it and form fats:
• H2 + -CH=CH- -CH2-CH2-
• In practice, only some of the C=C are allowed to become saturated.– Partial hydrogenation
Ni
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Hydrogenolysis
• Triacylglycerols can be split and reduced in a reaction called hydrogenolysis (splitting by hydrogen).
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Hydrolysis
• Triacylglycerols can be hydrolyzed, yielding fatty acids and glycerol.
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Saponification
• The saponification of a fat or oil involves the alkaline hydrolysis of a triester.
• The products formed are glycerol and the alkali metal salts of fatty acids, which are called soaps.
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Soaps and Synthetic Soaps and Synthetic DetergentsDetergents
Soaps and Synthetic Soaps and Synthetic DetergentsDetergents
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Soaps and Synthetic Detergents
• In the broadest sense possible, a detergent is simply a cleansing agent.
• A soap is distinguished from a synthetic detergent on the basis of chemical composition and not on the basis of function or usage.
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Soaps• Salts of long-chained fatty acids are
called soaps.
• Fat or oil + NaOH Soap + Glycerol
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63Figure 24. 1 Cleansing action of soap.
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Synthetic Detergents - AnionicThe one great advantage these synthetic detergents have over soap is that their Ca+2, Mg+2, and Fe+3 salts, as well as their Na+1 salts, are soluble in water. Therefore, they are nearly as effective in hard water as in soft water.
OSO3-Na+
sodium lauryl sulfate
nonpolar hydrophobic end,grease soluble
polar hydrophilic end,water soluble
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Synthetic Detergents – Nonionic• The molecule of a nonionic detergent contains a
grease-soluble component and a water soluble component.
• Some of these substances are especially useful in automatic washing machines because they have good detergent, but low sudsing, properties.
CH3(CH2)10CH2-O-(CH2CH2O)7-CH2CH2OH
grease soluble,hydrophobic water soluble, hydrophilic
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Biodegradability
• Organic substances that are readily decomposed by microorganisms in the environment are said to be biodegradable.
• Detergents that contain straight-chain alkyl groups are biodegradable.
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OSO3-Na+
a biodegradable detergent
OSO3-Na+
a nonbiodegradable detergent
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Esters and Esters and Anhydrides of Anhydrides of
Phosphoric AcidPhosphoric Acid
Esters and Esters and Anhydrides of Anhydrides of
Phosphoric AcidPhosphoric Acid
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Phosphoric Acid• Phosphoric acid has a Lewis structure similar to
that of a carboxylic acid.
• Phosphoric acid reacts with an alcohol to form a phosphate ester.
HO
P
O
OH
OH
+ HOCH2CH3
HO
P
O
OCH2CH3
OH
+ H2O
phosphoricacid
ethanol
monoethyl phosphate
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