Chapter 19 Substitutions at the Carbonyl Group
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1 Chapter 19 Substitutions at the Carbonyl Group In Chapter 18 Additions to the Carbonyl Groups In Chapter 19 Substitutions at the Carbonyl Group O O - - O - O R Y R C+ Y R Y Nu -Ȳ R N u + Y=goodleavinggroup Nu: - 1. Nu: - 2. H + O H R N u Nu 1
2 19.1 General Mechanism L: Leaving group Tetrahedral intermediate (sp 3 hybrized carbon) L must be a better leaving group than -CH 3 or H -. If L = -CH 3 or -H (ketone or aldehyde), it stops here. Because they are poor leaving group, or H - and CH - 3 are both too basic (unstable). L = less basic 2
3 Reactivity of carbonyls 1. Steric effect: Steric hindrance decrease the reactivity Bulky 2. Inductive effect: e- w/drawing group increase the reactivity because the carbonyl carbon becomes more electrophilic : e- donating group decrease the reactvity 3. Resonance effect: resonance e- w/drawing group increase the reactvity because the carbonyl carbon becomes more electrophilic : resonance e- donating group decrease the reactvity 3
4 Examples decrease the reactivity very much increase the reactivity slightly decrease the reactivity slightly increase the reactivity very much Therefore acyl chloride is much more reactive than amide! 4
5 Reactivity scale determines the equilibrium 5
6 Why? 19.2 Preparation of Acyl Chloride Because acyl chloride has the highest reactivity. Conversion to other compounds is very easy. How? Use thionyl chloride(socl 2 ) or phosphorus pentachloride (PCl 5 ). Gas formation makes thionyl chloride very reactive. 6
7 Mechanism 7
8 19.3 Preparation of Anhydride How? 1. Using a carboxylic acid or its conjugated base with an acyl chloride R-CO - 2- M + also can be used Pyridine is added or used as a solvent a. Salt formation precipitaion b. Prevent the reaction mixture from becoming strongly acidic 8
9 How? 2. Using a carboxylic acid with an other anhydride Removal of the acetic acid can drive the equilibrium to the product 9
10 How? 19.4 Preparation of Esters 1. By reaction of an alcohol with ether an acyl chloride or an anhydride 10
11 How? 2. By reaction of an alcohol l with a carboxylic acid Fisher esterification a. Using excess amount of alcohol: although K (0.1~1) 1) is low, anyhow the product will be obtained b. Removal of the water can derive the equilibrium to right 11
12 Fisher esterification Good leaving group Acid such as sulfuric acid, hydrochloric acid, or p- toluenesulfonic acid is used as a catalyst. 12
13 Examples 13
14 How? 19.5 Preparation of Carboxylic Acids Carboxylic acid derivatives + H 2 O Hydrolysis Acidic or basic condition 1. From an acyl chloride or an anhydride Just add some water Vigorous reaction Carboxylic acid 14
15 2. From Esters Ester can be hydrolyzed under either acidic or basic conditions a. Acidic condition: the reverse of the Fisher esterification b. Basic condition: saponification Stronger base weaker base; more stable 15
16 Examples 16
17 Clue 17
18 3. From Amide (Amide Hydrolysis) Amide is less reactive than ester! Therefore it requires vigorous heating in acidic or basic conditions Mechanism in basic condition -NH 3+ is bettern leving group than NH 2 18
19 Examples 19
20 4. From Nitrile (Nitrile Hydrolysis) Nitrile Amide Carboxylic acid basic or acidic conditions Carboxylic acid 20
21 Examples 21
22 19.6 Preparation of Amides By the reaction of an acyl chloride or an anhydride with ammonia or an amine To make the rxn condition not too acidic: HCl is the by product. In acidic condition hydrolysis 22
23 How about carboxylic acid + amine? Then carboxylate anion and the ammonium cation are formed! Because of the acid base reaction. Vigorous heating: water is distilled off Example Amide 23
24 19.7 Reaction with Hydride Nucleophiles Mechanism workup 24
25 H - is a very strong nucleophile 1. One LiAlH 4 can reduce two ester 2. If less LiAlH 4 is used, still ester and alcohol is formed (no aldehyde), because the aldehyde reacts with the hydride as fast as it is formed. Aldehyde is more reactive than ester! Examples Not the double bond! 25
26 Reduction of amide with LiAlH 4 Reduction of Nitrile with LiAlH 4 26
27 Mechanism for the reduction of an amide to an amine 27
28 Reduction of carboxylic acids Same as before workup 28
29 Sodium borohydride (NaBH 4 ) much less reactive than LiAlH 4 can reduce aldehydes or ketones, while cannot reduce esters 29
30 19.8 Reduction of Acid Derivatives to Aldehyde O RCOR' LiAlH 4 RCH 2 OH + R'OH O RCH How can we get aldehyde? RCOCl > RCO 2 COR > RCOH > RCO 2 R > RCO 2 H > RCONH 2 > RCO 2 - Unstable (high reactivity) Stable (low reactivity) To get aldehyde, use RCOCl or RCO 2 COR + lithium tri-t-t butoxyaluminum hydride 30
31 1. use RCOCl or RCO 2 COR + lithium tri-tbutoxyaluminum hydride Lithium tri-t-butoxyaluminum hydride At low temperature (-78 o C), it does not react with aldehyde, probably due to the steric effect 31
32 Examples 32
33 2.Use diisobutylaluminium hydride to reduce esters to aldehyde at low temperatures Example 33
34 19.9 Reactions with Organometallic Nucleophiles The reaction of Grignard reagents with esters 34
35 Examples 35
36 19.10 Preparation of Ketones Cannot be prepared using Grignard reagent Then how? Rapid reaction 1. Using lithium diorganocuprate with acyl chloride Examples 36
37 2. Using Grignard reagents with Nitriles Mechanism Example 37
38 19.11 Derivatives of Sulfur and Phosphorus Acids The Chemical behavior is similar to that of carboxylic acids, While they are stronger acid than the carboxylic acids! 38
39 Examples 39
40 40
41 Summary Resonance effects: Electron donors slow the reaction; withdrawers accelerate it Inductive effects: Electron withdrawers accelerate the reaction Streric effects: Steric hindrance slows the approach of the nucleophiles 41
42 42
43 43
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