5 Must Know Facts For Your Next Test

1. Phosphorus ylides are typically generated from the reaction of a phosphonium salt with a strong base, such as an alkoxide or amide.
2. The highly polarized nature of phosphorus ylides makes them powerful nucleophiles that can attack the electrophilic carbonyl carbon of aldehydes and ketones.
3. In the Wittig reaction, the phosphorus ylide reacts with the carbonyl compound to form a betaine intermediate, which then rearranges to give the desired alkene product.
4. The stereochemistry of the alkene product in the Wittig reaction is determined by the geometry of the betaine intermediate, which can be controlled through the choice of phosphorus ylide and reaction conditions.
5. Phosphorus ylides are versatile reagents that can be used to synthesize a wide range of alkenes, including those with complex stereochemistry, making them an important tool in organic synthesis.

Review Questions

• Describe the general mechanism of the Wittig reaction involving phosphorus ylides.
  • The Wittig reaction involves the nucleophilic addition of a phosphorus ylide to an aldehyde or ketone to form a betaine intermediate. This betaine then rearranges to eliminate triphenylphosphine oxide and generate the desired alkene product. The stereochemistry of the alkene is determined by the geometry of the betaine, which can be controlled through the choice of phosphorus ylide and reaction conditions.
• Explain how the polarized nature of phosphorus ylides contributes to their reactivity in the Wittig reaction.
  • Phosphorus ylides contain a positively charged phosphorus atom bonded to a negatively charged carbon atom, making them highly polarized and reactive species. This polarization allows the carbon atom to act as a powerful nucleophile, enabling it to attack the electrophilic carbonyl carbon of aldehydes and ketones. The resulting betaine intermediate then rearranges to eliminate triphenylphosphine oxide and form the alkene product, taking advantage of the inherent reactivity of the phosphorus ylide.
• Discuss the importance of phosphorus ylides and the Wittig reaction in organic synthesis, and provide examples of their applications.
  • Phosphorus ylides and the Wittig reaction are essential tools in organic synthesis, allowing for the efficient and stereoselective construction of alkenes from carbonyl compounds. The Wittig reaction is particularly useful for the synthesis of complex alkenes with specific stereochemistry, which are important building blocks in the preparation of many natural products and pharmaceuticals. For example, the Wittig reaction has been employed in the synthesis of vitamin A, prostaglandins, and various macrolide antibiotics, demonstrating the versatility and broad applicability of phosphorus ylides in organic chemistry.

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