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Chapter 12 Carboxylic Acids

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1 Chapter 12 Carboxylic Acids

2 Introduction Carbonyl (-C=O) and hydroxyl (-OH) on the same carbon is carboxyl group. Carboxyl group is usually written -COOH. Aliphatic acids have an alkyl group bonded to -COOH. Aromatic acids have an aryl group. Fatty acids are long-chain aliphatic acids. Chapter 20

3 Common Names Many aliphatic acids have historical names.
Positions of substituents on the chain are labeled with Greek letters. Chapter 20

4 trans-3-phenyl-2-propenoic acid (cinnamic acid)
IUPAC Names Remove -e from alkane (or alkene) name, add -oic acid. The carbon of the carboxyl group is #1. 2-chlorobutanoic acid trans-3-phenyl-2-propenoic acid (cinnamic acid) Chapter 20

5 o-hydroxybenzoic acid
Naming Cyclic Acids Cycloalkanes bonded to -COOH are named as cycloalkanecarboxylic acids. Aromatic acids are named as benzoic acids. o-hydroxybenzoic acid (salicylic acid) 2-isopropylcyclopentanecarboxylic acid Chapter 20

6 Dicarboxylic Acids Aliphatic diacids are usually called by their common names (to be memorized). For IUPAC name, number the chain from the end closest to a substituent. Two carboxyl groups on a benzene ring indicate a phthalic acid. 1,3-benzenedicarboxylic acid m-phthalic acid 3-bromohexanedioic acid -bromoadipic acid Chapter 20

7 Structure of Carboxyl Carbon is sp2 hybridized.
Bond angles are close to 120. O-H eclipsed with C=O, to get overlap of  orbital with orbital of lone pair on oxygen. Chapter 20

8 Boiling Points Higher boiling points than similar alcohols, due to dimer formation. Acetic acid, b.p. 118C Chapter 20

9 Melting Points Aliphatic acids with more than 8 carbons are solids at room temperature. Double bonds (especially cis) lower the melting point. Note these 18-C acids: Stearic acid (saturated): 72C Oleic acid (one cis double bond): 16C Linoleic acid (two cis double bonds): -5C Chapter 20

10 Solubility Water solubility decreases with the length of the carbon chain. Up to 4 carbons, acid is miscible in water. More soluble in alcohol. Also soluble in relatively nonpolar solvents like chloroform because it dissolves as a dimer. Chapter 20

11 Acidity Chapter 20

12 Resonance Stabilization
Chapter 20

13 Substituent Effects on Acidity
Chapter 20

14 Salts of Carboxylic Acids
Sodium hydroxide removes a proton to form the salt. Adding a strong acid, like HCl, regenerates the carboxylic acid. Chapter 20

15 Naming Acid Salts Name the cation.
Then name the anion by replacing the -ic acid with -ate. potassium 3-chloropentanoate potassium -chlorovalerate Chapter 20

16 Properties of Acid Salts
Usually solids with no odor. Carboxylate salts of Na+, K+, Li+, and NH4+ are soluble in water. Soap is the soluble sodium salt of a long chain fatty acid. Salts can be formed by the reaction of an acid with NaHCO3, releasing CO2. Chapter 20

17 Purifying an Acid Chapter 20

18 Some Important Acids Acetic acid is in vinegar and other foods, used industrially as solvent, catalyst, and reagent for synthesis. Fatty acids from fats and oils. Benzoic acid in drugs, preservatives. Adipic acid used to make nylon 66. Phthalic acid used to make polyesters. Chapter 20

19 Synthesis Review Oxidation of primary alcohols and aldehydes with chromic acid. Cleavage of an alkene with hot KMnO4 produces a carboxylic acid if there is a hydrogen on the double-bonded carbon. Cleavage of an alkyne with ozone or hot permanganate. Chapter 20

20 Fischer Esterification
Acid + alcohol yields ester + water. Acid catalyzed for weak nucleophile. All steps are reversible. Reaction reaches equilibrium. Chapter 20

21 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. Chapter 20

22 Reduction to 1 Alcohols
Use strong reducing agent, LiAlH4. Borane, BH3 in THF, reduces carboxylic acid to alcohol, but does not reduce ketone. Chapter 20

23 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. Chapter 20

24 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. Chapter 20

25 End of Chapter 12 Chapter 20

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