ch 23: carbonyl condensation reactions renee y. becker chm 2211 valencia community college
TRANSCRIPT
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CH 23: Carbonyl Condensation Reactions
Renee Y. BeckerCHM 2211
Valencia Community College
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Condensation Reactions
• Carbonyl compounds are both the electrophile and nucleophile in carbonyl condensation reactions
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Why this Chapter?
• Carbonyl condensation reactions also occur often in metabolic pathways.
• Also one the general methods used to form C-C bonds.
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Carbonyl Condensation: The Aldol Reaction
• Acetaldehyde reacts in basic solution (NaOEt, NaOH) with another molecule of acetaldhyde
• The -hydroxy aldehyde product is aldol (aldehyde + alcohol)
• This is a general reaction of aldehydes and ketones
• The aldol reaction is reversible, favoring the condensation product only for aldehydes with no substituent
• Steric factors are increased in the aldol product
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The Aldol Reaction
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Aldehydes and Ketones and the Aldol Equilibrium
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Mechanism 1: Aldol Reactions
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Carbonyl Condensation versus Alpha-Substitution
• Carbonyl condensations and substitutions both involve formation of enolate ion intermediates
• Alpha-substitution reactions are accomplished by converting all of the carbonyl compound to enolate form so it is not an electrophile
• Immediate addition of an alkyl halide to completes the alkylation reaction
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Conditions for Condensations
• A small amount of base is used to generate a small amount of enolate in the presence of unreacted carbonyl compound
• After the condensation, the basic catalyst is regenerated
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Dehydration of Aldol Products: Synthesis of Enones
• The -hydroxy carbonyl products dehydrate to yield conjugated enones
• The term “condensation” refers to the net loss of water and combination of 2 molecules
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Dehydration of b-Hydroxy Ketones and Aldehydes
• The hydrogen is removed by a base, yielding an enolate ion that expels the OH leaving group
• Under acidic conditions the OH group is protonated and water is expelled
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Driving the Equilibrium
• Removal of water from the aldol reaction mixture can be used to drive the reaction toward products
• Even if the initial aldol favors reactants, the subsequent dehydration step pushes the reaction to completion
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Using Aldol Reactions in Synthesis
• If a desired molecule contains either a -hydroxy carbonyl or a conjugated enone, it might come from an aldol reaction
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Extending the Synthesis
• Subsequent transformations can be carried out on the aldol products
• A saturated ketone might be prepared by catalytic hydrogenation of the enone product
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Mixed Aldol Reactions
• A mixed aldol reaction between two similar aldehyde or ketone partners leads to a mixture of four possible products
• This is not useful
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Practical Mixed Aldols
• If one of the carbonyl partners contains no hydrogens and the carbonyl is unhindered (such as benzaldehyde and formaldehyde) it is a good electrophile and can react with enolates, then a mixed aldol reaction is likely to be successful
• 2-methylcyclohexanone gives the mixed aldol product on reaction with benzaldehyde
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Mixed Aldols With Acidic Carbonyl Compounds
• Ethyl acetoacetate is completely converted into its enolate ion under less basic conditions than monocarbonyl partners
• Aldol condensations with ethyl acetoacetate occur preferentially to give the mixed product
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Intramolecular Aldol Reactions
• Treatment of certain dicarbonyl compounds with base produces cyclic products by intramolecular reaction
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Mechanism of Intramolecular Aldol Reactions
• Both the nucleophilic carbonyl anion donor and the electrophilic carbonyl acceptor are now in the same molecule.
• The least strained product is formed because the reaction is reversible
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The Claisen Condensation Reaction
• Reaction of an ester having an hydrogen with 1 equivalent of a base to yield a -keto ester
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Mechanism of the Claisen Condensation
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Features of the Claisen Condensation
• If the starting ester has more than one acidic a hydrogen, the product -keto ester has a doubly activated proton that can be abstracted by base
• Requires a full equivalent of base rather than a catalytic amount
• The deprotonation drives the reaction to the product
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Mixed Claisen Condensations
• Successful when one of the two esters acts as the electrophilic acceptor in reactions with other ester anions to give mixed -keto esters
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Esters and Ketones
• Reactions between esters and ketones, resulting in -diketones
• Best when the ester component has no hydrogens and can't act as the nucleophilic donor
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Intramolecular Claisen Condensations: The Dieckmann Cyclization
• Intramolecular Claisen condensation
• Best with 1,6-diesters (product: 5-membered-ketoester) and 1,7-diesters (product: 6-membered -ketoester)
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Mechanism of the Dieckmann Cyclization
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Alkylation of Dieckmann Product
• The cyclic -keto ester can be further alkylated and decarboxylated as in the acetoacetic ester synthesis
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Conjugate Carbonyl Additions: The Michael Reaction
• Enolates can add as nucleophiles to ,-unsaturated aldehydes and ketones to give the conjugate addition product
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Best Conditions for the Michael Reaction
• When a particularly stable enolate ion
• Example: Enolate from a -keto ester or other 1,3-dicarbonyl compound adding to an unhindered ,-unsaturated ketone
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Mechanism of the Michael Reaction
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Generality of the Michael Reaction
• Occurs with a variety of ,-unsaturated carbonyl compounds (aldehydes, esters, nitriles, amides, and nitro compounds)
• Donors include -diketones, -keto esters, malonic esters, -keto nitriles, and nitro compounds
• See Table 23.1
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Carbonyl Condensations with Enamines: The Stork Reaction
• Enamines are equivalent to enolates in their reactions and can be used to accomplish the transformations under milder conditions
• Enamines are prepared from a ketone and a secondary amine
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Enamines Are Nucleophilic
• Overlap of the nitrogen lone-pair orbital with the double-bond π orbitals increases electron density on the carbon atom
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Enamine Addition and Hydrolysis
• Enamine adds to an ,-unsaturated carbonyl acceptor
• The product is hydrolyzed to a 1,5-dicarbonyl compound
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The Robinson Annulation Reaction
• A two-step process: combines a Michael reaction with an intramolecular aldol reaction
• The product is a substituted 2-cyclohexenone