Carboxylic Acids and their Derivatives I

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2302272 Org Chem II Part I Lecture 5 Carboxylic Acids and their Derivatives I Instructor: Dr. Tanatorn Khotavivattana E-mail: tanatorn.k@chula.ac.th Recommended Textbook: Chapter 20 in Organic Chemistry, 8 th Edition, L. G. Wade, Jr., 2010, Prentice Hall (Pearson Education)

Carboxyl = carbonyl group + hydroxyl group 1 Compounds containing the carboxyl group are distinctly acidic and are called carboxylic acids formic acid methanoic acid acetic acid ethanoic acid

Carboxylic Acid 2 Aliphatic acid has an alkyl group bonded to the carboxyl group, and an aromatic acid has an aryl group A carboxylic acid donates protons by heterolytic cleavage of the acidic O H bond to give a proton and a carboxylate ion

Nomenclature IUPAC Names 3 Uses the name of the alkane that corresponds to the longest continuous chain of carbon atoms The final -e in the alkane name is replaced by the suffix -oic acid The chain is numbered, starting with the carboxyl carbon atom, to give positions of substituents along the chain The carboxyl group takes priority over any of the other functional groups

Nomenclature IUPAC Names 4 Unsaturated acids are named using the name of the corresponding alkene, with the final -e replaced by -oic acid Cycloalkanes with COOH substituents are named as cycloalkanecarboxylic acids Aromatic acids of the form Ar-COOH are named as derivatives of benzoic acid ortho-, meta-, and para- may be used to give the positions of substituents

Nomenclature Common Names 5

Problem #1 6

Structure of Carboxylic Group 7 The sp 2 hybrid carbonyl carbon atom is planar, with nearly trigonal bond angles One of the unshared electron pairs on the hydroxyl oxygen atom is delocalised into the electrophilic pi system of the carbonyl group

Boiling Points 8 Carboxylic acids boil at considerably higher temperatures than do alcohols, ketones, or aldehydes of similar molecular weights The high boiling points of carboxylic acids result from formation of a stable, hydrogen bonded dimer; effectively doubling the molecular weight

Solubilities 9 Carboxylic acids form hydrogen bonds with water and alcohol The lower molecular-weight acids are miscible with water As the length of the hydrocarbon chain increases, water solubility decreases until acids with more than 10 carbon atoms are nearly insoluble in water Most carboxylic acids are also quite soluble in relatively nonpolar solvents such as chloroform because the acid continues to exist in its dimeric form

Acidities 10 A carboxylic acid may dissociate in water to give a proton and a carboxylate ion The equilibrium constant K a is called the acid-dissociation constant The pk a of an acid is the negative logarithm of K a and we commonly use as an indication of the relative acidities of different acids Lower pk a value = Stronger acid

Acidities 11

Acidities 12 Carboxylic acids (pk a ~ 5) are 10 11 times more acidic than alcohols (pk a ~ 16) Dissociation of a carboxylic acid gives a carboxylate ion with the negative charge spread out equally over two oxygen atoms, compared with just one oxygen in an alkoxide ion

Acidities Substituent Effects 13 Any substituent that stabilises the negatively charged carboxylate ion (i.e. electron withdrawing) promotes dissociation and results in a stronger acid The magnitude of a substituent effect depends on its distance from the carboxyl group

Acidities Substituent Effects 14

Salts of Carboxylic Acids 15 A strong base can completely deprotonate a carboxylic acid. The products are a carboxylate ion, the cation remaining from the base, and water. The combination of a carboxylate ion and a cation is a salt of a carboxylic acid Addition of a mineral acid (more acidic) converts a carboxylic acid salt back to the original carboxylic acid

Salts of Carboxylic Acids Properties 16 Solids with little odour; melt at high temperatures; often decompose before reaching their melting points Carboxylate salts of the alkali metals (Li +, Na +, K + ) and ammonium (NH 4+ ) generally soluble in water but relatively insoluble in nonpolar organic solvents Soap is a common example of carboxylate salts, consisting of the soluble sodium salts of long-chain fatty acids Carboxylate salts of most other metal ions are insoluble in water. For example, when soap is used in hard water containing calcium, magnesium, or iron ions, the insoluble carboxylate salts precipitate out as hard-water scum.

Salts of Carboxylic Acids Extraction 17 Extraction is a purification method take advantage of the different solubilities of acids and their salts Impurities can be removed from a carboxylic acid using acid base extractions

Problem #2 18

Reactions of Carboxylic Acids 19 1) Fischer Esterification Condensation of Acids with Alcohols converts carboxylic acids and alcohols directly to esters by an acid-catalysed nucleophilic acyl substitution The net reaction is replacement of the acid OH group by the OR group

1) Fischer Esterification Mechanism 20

1) Fischer Esterification 21 Fischer esterification is an equilibrium, and typical equilibrium constants for esterification are not very large Esterification may be driven to the right either by using an excess of one of the reactants or by removing one of the products Water may be removed either by distilling it out or by adding a dehydrating agent such as magnesium sulfate or molecular sieves

Problem #3 22

Problem #4 23

Reactions of Carboxylic Acids 24 2) Condensation of Acids with Amines: Direct Synthesis of Amides Amides can be synthesized directly from carboxylic acids, using heat to drive off water and force the reaction to completion. The initial acid base reaction of a carboxylic acid with an amine gives an ammonium carboxylate salt. The carboxylate ion is a poor electrophile, and the ammonium ion is not nucleophilic. Therefore, heat is required!

Problem #5 25

Reactions of Carboxylic Acids 26 3) Reduction of Carboxylic Acids Lithium aluminum hydride (LiAlH 4 or LAH) reduces carboxylic acids to primary alcohols The aldehyde is an intermediate in this reduction, but it cannot be isolated because it is reduced more easily than the original acid

3) Reduction of Carboxylic Acids Mechanism 27 1. LAH is a strong base, and the first step is deprotonation of the acid 2. AlH 3 adds to the carbonyl group of the lithium carboxylate salt. 3. Elimination gives an aldehyde, which is quickly reduced to a lithium alkoxide 4. Water protonates the alkoxide to the primary alcohol

Reactions of Carboxylic Acids 28 4) Alkylation of Carboxylic Acids Carboxylic acids react with two equivalents of an organolithium reagent to give ketones The first equivalent of the organolithium reagent simply deprotonates the acid The second equivalent adds to the carbonyl to give a stable dianion Hydrolysis of the dianion (by adding water) gives the hydrate of a ketone

Reactions of Carboxylic Acids 29 4) Alkylation of Carboxylic Acids Hydrolysis of the dianion (by adding water) gives the hydrate of a ketone

Problem #6 30

Reactions of Carboxylic Acids 31 5) Synthesis of Acid Chlorides The best reagents for converting carboxylic acids to acid chlorides are thionyl chloride (SOCl 2 ) and oxalyl chloride [(COCl) 2 ] because they form gaseous byproducts that do not contaminate the product.

5) Synthesis of Acid Chlorides Mechanism 32 Oxygen atom of the acid can attack sulphur, replacing chloride This reactive anhydride undergoes nucleophilic acyl substitution by chloride ion to give the acid chloride

Synthesis of Carboxylic Acids Recap 33 1) Oxidation of Primary Alcohols and Aldehydes Common oxidising agents are chromic acid (H 2 CrO 4 ) or sodium hypochlorite (bleach, NaOCl)

Synthesis of Carboxylic Acids Recap 34 2) Oxidative Cleavage Warm, concentrated permanganate solution cleaves the central carbon carbon bond of alkenes, giving ketones or acids depending on the substitution of the double bond With alkynes, either ozonolysis or a vigorous permanganate oxidation cleaves the triple bond to give carboxylic acids

Synthesis of Carboxylic Acids Recap 35 3) Oxidation of Alkylbenzenes Side chains of alkylbenzenes are oxidised to benzoic acid derivatives by treatment with hot potassium permanganate or hot chromic acid

Synthesis of Carboxylic Acids 36 4) Carboxylation of Grignard Reagents Grignard reagents add to carbon dioxide to form magnesium salts of carboxylic acids Addition of dilute acid protonates these magnesium salts to give carboxylic acids

Synthesis of Carboxylic Acids 37 5) Formation and Hydrolysis of Nitriles Convert an alkyl halide (or tosylate) to a carboxylic acid with an additional carbon atom by displacing the halide with sodium cyanide to give nitrile Acidic or basic hydrolysis of the nitrile gives a carboxylic acid Limited to halides and tosylates that are good S N 2 electrophiles: usually primary and unhindered

Problem #7 38

Homework 1 39 Homework 2

Homework 3 40

Homework 4 41

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