Name: Synthesis of &#945;-Substituted Carbonyl Compounds: The Stork Enamine Reaction
Uploaded: 2023-04-30T10:25:34
Description: Learn by watching this video about Synthesis of α-Substituted Carbonyl Compounds: The Stork Enamine Reaction at JoVE.com

The Stork enamine reaction generates &#945;-substituted carbonyls via enamine intermediates.
In enamines, the conjugation between nitrogen&#39;s lone pair and the C=C bond leads to its resemblance to enolate ions, with both accommodating a nucleophilic &#945; carbon atom.
Despite this, enamines are neutral and less reactive than enolates that carry a net negative charge.
Enamines, therefore, serve as effective Michael donors and add to Michael acceptors, like &#945;,&#946;-unsaturated carbonyls, via Michael addition.
The reaction generates an enolate-iminium intermediate, which upon treatment with an aqueous acid, gives an &#945;-substituted 1,5-dicarbonyl compound.
The reaction doesn&#39;t work with regular enolates as they are not efficient Michael donors, unlike their enamine analogs.
Enamines also endure a substitution reaction pathway with alkyl or acyl halides, producing respective iminium salts. Subsequent hydrolysis gives the corresponding alkylated and acylated carbonyl compounds.
Overall, in the Stork enamine reaction, ketones and secondary amines react to give nucleophilic enamine intermediates that add to suitable electrophiles, followed by hydrolysis to give &#945;-substituted ketones.

synthesis of &alpha;-substituted carbonyl compounds: the stork enamine reaction

&#945;-Substituted ketones or aldehydes can be synthesized from enamines by the Stork enamine reaction, named after its pioneer Gilbert Stork. Enamines are useful synthetic intermediates where the lone pair on nitrogen is in conjugation with the C=C bond. They resemble enolate ions, as the resonance forms of both species have a nucleophilic &#945; carbon.
<img alt="Figure1" src="/files/ftp_upload/12399/12399_PT_Figure_1.svg" style="text-align: center; height: 120px;" />
However, enamines are neutral and less reactive than enolates, which bear a net negative charge. Consequently, enamines are effective Michael donors that undergo Micheal addition with acceptors like &#945;,&#946;-unsaturated carbonyl compounds. The reaction yields an enolate-iminium intermediate that reacts with aqueous acid to give an &#945;-substituted 1,5-dicarbonyl compound. Similarly, upon treatment with alkyl or acyl halides, enamines generate respective iminium salts, and subsequent hydrolysis produces respective alkylated and acylated carbonyl compounds.

Learn by watching this video about Synthesis of α-Substituted Carbonyl Compounds: The Stork Enamine Reaction at JoVE.com

Synthesis of &#945;-Substituted Carbonyl Compounds: The Stork Enamine Reaction

Synthesis of &alpha;-Substituted Carbonyl Compounds: The Stork Enamine Reaction

&#945;-Substituted ketones or aldehydes can be synthesized from enamines by the Stork enamine reaction, named after its pioneer Gilbert Stork. Enamines ...

synthesis-of-substituted-carbonyl-compounds-the-stork-enamine-reaction

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JoVE Core

Organic Chemistry

Unit 1

&alpha;-Carbon Chemistry: Enols, Enolates, and Enamines

KEY TERMS AND CONCEPTS

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unit 1

covalent bonding and structure

Covalent Bonding and Structure

Chapter 1 thermodynamics and chemical kinetics

Thermodynamics and Chemical Kinetics

Chapter 2 alkanes and cycloalkanes

Alkanes and Cycloalkanes

Chapter 3 stereoisomerism

Stereoisomerism

Chapter 4 acids and bases

Acids and Bases

Chapter 5 nucleophilic substitution and elimination reactions of alkyl halides

Nucleophilic Substitution and Elimination Reactions of Alkyl Halides

Chapter 6 alkene structure and reactivity

Alkene Structure and Reactivity

Chapter 7 reactions of alkenes

Reactions of Alkenes

Chapter 8 alkynes

Alkynes

Chapter 9 alcohols and phenols

Alcohols and Phenols

Chapter 10 ethers, epoxides, sulfides

Ethers, Epoxides, Sulfides

Chapter 11 aldehydes and ketones

Aldehydes and Ketones

Chapter 12 carboxylic acids

Carboxylic Acids

Chapter 13 carboxylic acid derivatives

Carboxylic Acid Derivatives

Chapter 14 &alpha;-carbon chemistry: enols, enolates, and enamines

Chapter 15 dienes, conjugated pi systems, and pericyclic reactions

Dienes, Conjugated Pi Systems, and Pericyclic Reactions

Chapter 16 aromatic compounds

Aromatic Compounds

Chapter 17 reactions of aromatic compounds

Reactions of Aromatic Compounds

Chapter 18 amines

Amines

Chapter 19 radical chemistry

Radical Chemistry

Chapter 20 synthetic polymers

Synthetic Polymers

Chapter 21 key terms and concepts

scientists in action

SCIENTISTS IN ACTION

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Multiple Halogenation of Methyl Ketones: Haloform Reaction

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&alpha;-Halogenation of Carboxylic Acid Derivatives: Overview

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&alpha;-Bromination of Carboxylic Acids: Hell&ndash;Volhard&ndash;Zelinski Reaction

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Synthesis of α-Substituted Carbonyl Compounds: The Stork Enamine Reaction

Synthesis of α-Substituted Carbonyl Compounds: The Stork Enamine Reaction

Reactivity of Enols

Reactivity of Enolate Ions

Types of Enols and Enolates

Enolate Mechanism Conventions

Regioselective Formation of Enolates

Stereochemical Effects of Enolization

Acid-Catalyzed α-Halogenation of Aldehydes and Ketones

Base-Promoted α-Halogenation of Aldehydes and Ketones

Multiple Halogenation of Methyl Ketones: Haloform Reaction

α-Halogenation of Carboxylic Acid Derivatives: Overview

α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction

Reactions of α-Halocarbonyl Compounds: Nucleophilic Substitution

Nitrosation of Enols

C–C Bond Formation: Aldol Condensation Overview