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4: Enolates

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    • 4.1: Acid Derivative Enolates
      This page discusses the role of enolates in synthetic chemistry, focusing on their reactivity, cleavage specificity, and ability to induce asymmetry. It highlights two key auxiliaries: Evans Oxazolidinone, which aids in asymmetric alkylations, and Myers Auxiliary, recognized for heightened reactivity with various electrophiles. Both auxiliaries provide versatile cleavage options for further functionalization in chemical synthesis.
    • 4.2: Dicarbonyl Chemistry
      This page explores the alkylation of asymmetric ketones and malonates via reactions like Michael and Knoevenagel. It highlights the production of two enolate regioisomers and the selective substitution strategy using ethyl formate. The initial reversible addition of formate reduces the pKa, enabling enolate formation on the less hindered side, followed by a Michael addition that removes formate, serving as a traceless directing group.
    • 4.3: Ketone Enolates
      This page examines kinetic and thermodynamic enolate formation, focusing on the regioselective production of enolates influenced by reaction energetics. It addresses the nucleophilicity of carbon and oxygen, with ketones being suitable for alkylation. The Stork synthesis of β-vetivone illustrates selective reactivity using metallo-enamines from unreactive enolates. Additionally, SAMP and RAMP are introduced as strategies for achieving enantioselectivity in these reactions.
    • 4.4: The aldol reaction
      This page covers aldol reactions with a focus on enolate geometry and selectivity, introducing the Zimmerman-Traxler Model to explain enolate behavior. It highlights the use of boron Lewis acids for stable transition states, strategies for controlling diastereoselectivity and stereochemistry with chiral auxiliaries and ligands, the Mukaiyama aldol reaction, and the advancement of asymmetric catalysis.

    4: Enolates is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by LibreTexts.

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