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Oxymercuration

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Organic Chemistry

Definition

Oxymercuration is a chemical reaction that involves the addition of water to an alkene or alkyne in the presence of a mercury(II) salt, typically mercury(II) acetate. This process is used to introduce a hydroxyl group (-OH) to the molecule, effectively hydrating the carbon-carbon double or triple bond.

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5 Must Know Facts For Your Next Test

  1. Oxymercuration is a two-step process that involves the initial addition of a mercury(II) cation to the alkene or alkyne, followed by the replacement of the mercury group with a hydroxyl group.
  2. The reaction is typically carried out in the presence of a protic solvent, such as water or an alcohol, and a mercury(II) salt, such as mercury(II) acetate.
  3. Oxymercuration is a regio- and stereoselective reaction, meaning it can control the position and orientation of the resulting hydroxyl group on the molecule.
  4. The reaction is often followed by a reduction step, known as demercuration, to remove the mercury and leave behind the desired alcohol product.
  5. Oxymercuration is a useful synthetic tool for the hydration of alkenes and alkynes, as it allows for the introduction of a hydroxyl group with high selectivity.

Review Questions

  • Describe the mechanism of the oxymercuration reaction for the hydration of alkenes.
    • The oxymercuration of alkenes involves a two-step mechanism. First, the carbon-carbon double bond of the alkene undergoes electrophilic addition with the mercury(II) cation, forming a mercurinium ion intermediate. This intermediate is then attacked by a nucleophilic water molecule, displacing the mercury group and resulting in the formation of an alcohol product. The regio- and stereochemistry of the final product is controlled by the orientation of the mercurinium ion intermediate.
  • Explain how the oxymercuration reaction can be used to hydrate alkynes, and discuss the differences compared to the hydration of alkenes.
    • The oxymercuration of alkynes follows a similar mechanism to the hydration of alkenes, but with some key differences. Instead of forming a mercurinium ion intermediate, the mercury(II) cation adds to one of the carbon atoms of the alkyne, forming a vinyl mercury intermediate. This intermediate is then attacked by a water molecule, resulting in the formation of an enol product. The enol can then tautomerize to the more stable ketone product. The regiochemistry of the final ketone product is determined by the initial addition of the mercury(II) cation to the alkyne.
  • Evaluate the advantages and limitations of the oxymercuration reaction compared to other methods of alkene and alkyne hydration, and discuss its applications in organic synthesis.
    • The main advantage of the oxymercuration reaction is its high regio- and stereoselectivity, allowing for the controlled introduction of a hydroxyl group on alkenes and alkynes. This makes it a valuable tool in organic synthesis for the synthesis of complex molecules. However, the use of mercury compounds raises some environmental and safety concerns, and the reaction requires an additional reduction step (demercuration) to remove the mercury group. Other hydration methods, such as the use of strong acids or hydroboration-oxidation, may be preferred in certain situations. Overall, the oxymercuration reaction is a powerful synthetic method, but its application must be weighed against the potential drawbacks and the availability of alternative hydration techniques.

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