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Synthesis of α-Substituted Carbonyl Compounds: The Stork Enamine Reaction01:26

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α-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 α carbon.
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Enols are a class of compounds where a hydroxyl group is attached to a carbon–carbon double bond, which implies that it is a vinyl alcohol. A carbonyl compound with an α hydrogen undergoes keto–enol tautomerism and remains in equilibrium with its tautomer, the enol form. Usually, the keto tautomer is present in a higher concentration than the enol tautomer due to the higher bond energy of C=O compared to C=C. Moreover, the direction of the keto–enol equilibrium is...
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Alkylation of terminal alkynes with primary alkyl halides in the presence of a strong base like sodium amide is one of the common methods for the synthesis of longer carbon-chain alkynes. For example, treatment of 1-propyne with sodium amide followed by reaction with ethyl bromide yields 2-pentyne.
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Catalytic hydrogenation of alkenes is a transition-metal catalyzed reduction of the double bond using molecular hydrogen to give alkanes. The mode of hydrogen addition follows syn stereochemistry.
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Enamine formation involves the addition of carbonyl compounds to a secondary amine through a series of reactions. The mechanism begins with the generation of carbinolamine, a nucleophilic attack followed by several proton transfer reactions. The hydroxyl group of the carbinolamine is converted into water to make a better leaving group that can push the reaction forward by eliminating a water molecule. In enamine formation, the last step involves the abstraction of a proton from the α carbon to...
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Copper-catalyzed functionalization of enynes.

Quentin Dherbassy1, Srimanta Manna1, Fabien J T Talbot1

  • 1Department of Chemistry, University of Manchester Oxford Road Manchester M13 9PL UK david.j.procter@manchester.ac.uk www.twitter.com/GroupProcter https://www.proctergroupresearch.com/.

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Copper catalysis enables versatile enyne functionalization, yielding complex molecules. This review covers key copper-catalyzed reactions like borylation, hydrofunctionalization, and cyclizations for enynes.

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Area of Science:

  • Organic Chemistry
  • Catalysis
  • Synthetic Chemistry

Background:

  • Enyne derivatives are versatile building blocks in organic synthesis.
  • Copper catalysis offers efficient methods for functionalizing enynes.
  • These reactions produce highly functionalized and enantioenriched products.

Purpose of the Study:

  • To review recent advances in copper-catalyzed enyne functionalization.
  • To highlight key transformations including boro-, hydro-, and difunctionalizations.
  • To discuss mechanistic insights, particularly for 1,3-enyne regiodivergent reactions.

Main Methods:

  • Review of literature on copper-catalyzed enyne reactions.
  • Focus on boro- and hydrofunctionalizations.
  • Analysis of copper-mediated radical difunctionalizations and cyclizations.

Main Results:

  • Copper catalysis provides diverse routes for enyne functionalization.
  • Regiodivergent functionalization of 1,3-enynes is a key area.
  • Mechanistic understanding of these transformations is advancing.

Conclusions:

  • Copper-catalyzed enyne functionalization is a powerful synthetic strategy.
  • The versatility of enynes allows access to complex molecular architectures.
  • Continued research promises further development in this field.