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19 19-1 © 2006 Thomson Learning, Inc. All rights reserved General, Organic, and Biochemistry, 8e Bettelheim, Brown, Campbell, & Farrell.

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Presentation on theme: "19 19-1 © 2006 Thomson Learning, Inc. All rights reserved General, Organic, and Biochemistry, 8e Bettelheim, Brown, Campbell, & Farrell."— Presentation transcript:

1 19 19-1 © 2006 Thomson Learning, Inc. All rights reserved General, Organic, and Biochemistry, 8e Bettelheim, Brown, Campbell, & Farrell

2 19 19-2 © 2006 Thomson Learning, Inc. All rights reserved Introduction In this chapter, we study three classes of compounds derived from carboxylic acids; anhydrides, esters, and amides Each is related to a carboxyl group by loss of H 2 O.

3 19 19-3 © 2006 Thomson Learning, Inc. All rights reserved Anhydrides anhydride The functional group of an anhydride is two carbonyl groups bonded to the same oxygen. The anhydride may be symmetrical (from two identical acyl groups), or mixed (from two different acyl groups). acid anhydrideTo name an anhydride, drop the word "acid" from the name of the carboxylic acid from which the anhydride is derived and add the word "anhydride”.

4 19 19-4 © 2006 Thomson Learning, Inc. All rights reserved Phosphoric Anhydrides phosphoric anhydrideThe functional group of a phosphoric anhydride is two phosphoryl (P=O) groups bonded to the same oxygen atom

5 19 19-5 © 2006 Thomson Learning, Inc. All rights reserved Esters ester The functional group of an ester is a carbonyl group bonded to an -OR group. Both IUPAC and common names of esters are derived from the names of the parent carboxylic acids. ic acidateName the alkyl or aryl group bonded to oxygen first, followed by the name of the acid; replace the suffix -ic acid by -ate. lactoneA cyclic ester is called a lactone.

6 19 19-6 © 2006 Thomson Learning, Inc. All rights reserved Amides amide The functional group of an amide is a carbonyl group bonded to a nitrogen atom. oic acid ic acid amideTo name an amide, drop the suffix -oic acid from the IUPAC name of the parent acid, or -ic acid from its common name, and add -amide. If the amide nitrogen is also bonded to an alkyl or aryl group, name the group and show its location on nitrogen by N- ; two alkyl or aryl groups by N,N-di-.

7 19 19-7 © 2006 Thomson Learning, Inc. All rights reserved Amides lactamA cyclic amide is called a lactam. The penicillins are referred to as  -lactam antibiotics.

8 19 19-8 © 2006 Thomson Learning, Inc. All rights reserved Amides The cephalosporins are also  -lactam antibiotics.

9 19 19-9 © 2006 Thomson Learning, Inc. All rights reserved Fischer Esterification Fischer esterification Fischer esterification is the most commonly used preparation of esters (Chapter 18). In Fischer esterification, a carboxylic acid is reacted with an alcohol in the presence of an acid catalyst, such as concentrated sulfuric acid

10 19 19-10 © 2006 Thomson Learning, Inc. All rights reserved Preparation of Amides In principle, we can form an amide by treating a carboxylic acid with an amine and removing -OH from the acid and an -H from the amine. In practice what occurs if the two are mixed is an acid- base reaction to form an ammonium salt. If this salt is heated to a high enough temperature, water is eliminated and an amide forms.

11 19 19-11 © 2006 Thomson Learning, Inc. All rights reserved Preparation of Amides It is much more common, however, to prepare amides by treating an anhydride with an amine.

12 19 19-12 © 2006 Thomson Learning, Inc. All rights reserved Hydrolysis of Anhydrides HydrolysisHydrolysis is a chemical decomposition involving breaking a bond and the addition of the elements of water. Carboxylic anhydrides, particularly the low-molecular- weight ones, react readily with water (hydrolyze) to give two carboxylic acids.

13 19 19-13 © 2006 Thomson Learning, Inc. All rights reserved Hydrolysis of Esters Esters hydrolyze only very slowly, even in boiling water. Hydrolysis becomes considerably more rapid, however, when the ester is heated in aqueous acid or base. Hydrolysis of esters in aqueous acid is the reverse of Fischer esterification. A large excess of water drives the equilibrium to the right to form the carboxylic acid and alcohol (Le Chatelier's principle).

14 19 19-14 © 2006 Thomson Learning, Inc. All rights reserved Hydrolysis of Esters We can also hydrolyze an ester using a hot aqueous base, such as aqueous NaOH. saponificationThis reaction is often called saponification, a reference to its use in the manufacture of soaps. The carboxylic acid formed in the hydrolysis reacts with hydroxide ion to form a carboxylic acid anion. Each mole of ester hydrolyzed requires one mole of base.

15 19 19-15 © 2006 Thomson Learning, Inc. All rights reserved Hydrolysis of Amides Amides require more vigorous conditions for hydrolysis in both acid and base than do esters. Hydrolysis in hot aqueous acid gives a carboxylic acid and an ammonium ion. Hydrolysis is driven to completion by the acid-base reaction between ammonia or the amine and the acid to form an ammonium ion. Each mole of amide hydrolyzed requires one mole of acid.

16 19 19-16 © 2006 Thomson Learning, Inc. All rights reserved Hydrolysis of Amides Hydrolysis of an amide in aqueous base gives a carboxylic acid salt and ammonia or an amine. Hydrolysis is driven to completion by the acid-base reaction between the carboxylic acid and base to form a salt. Each mole of amide hydrolyzed requires one mole of base.

17 19 19-17 © 2006 Thomson Learning, Inc. All rights reserved Reaction with Alcohols Anhydrides react with alcohols and phenols to give an ester and a carboxylic acid. Aspirin is prepared by the reaction of salicylic acid with acetic anhydride.

18 19 19-18 © 2006 Thomson Learning, Inc. All rights reserved Reaction with Amines Anhydrides react with ammonia and with 1° and 2° amines to form amides. Two moles of amine are required; one to form the amide and one to neutralize the carboxylic acid by-product.

19 19 19-19 © 2006 Thomson Learning, Inc. All rights reserved Reaction with Amines Esters react with ammonia and with 1° and 2° amines to form amides. Thus, an amide can be prepared from a carboxylic acid by first converting the carboxylic acid to an ester by Fischer esterification and then reaction of the ester with an amine.

20 19 19-20 © 2006 Thomson Learning, Inc. All rights reserved Reaction with Amines Amides do not react with ammonia or with amines.

21 19 19-21 © 2006 Thomson Learning, Inc. All rights reserved Step-Growth Polymers Step-growth polymers Step-growth polymers are formed by reaction between two molecules, each of which contains two functional groups. Each new bond is created in a separate step. In this section, we discuss three types of step-growth polymers; polyamides, polyesters, and polycarbonates.

22 19 19-22 © 2006 Thomson Learning, Inc. All rights reserved Polyamides Nylon-66 Nylon-66 was the first purely synthetic fiber. It is synthesized from two six-carbon monomers.

23 19 19-23 © 2006 Thomson Learning, Inc. All rights reserved Polyamides KevlarThe polyaromatic amide known as Kevlar is made from an aromatic dicarboxylic acid and an aromatic diamine.

24 19 19-24 © 2006 Thomson Learning, Inc. All rights reserved Polyesters The first polyester involved polymerization of this diester and diol.

25 19 19-25 © 2006 Thomson Learning, Inc. All rights reserved Polycarbonates polycarbonateLexan, the most familiar polycarbonate, is formed by reaction between the disodium salt of bisphenol A and phosgene

26 19 19-26 © 2006 Thomson Learning, Inc. All rights reserved End Chapter 19

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