The Reaction C2H5ONa + C2H5I ® C2H5OC2H5 + NaI Is Known As ...

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The reaction C2H5ONa + C2H5I ® C2H5OC2H5 + NaI is known as (A) Kolbe's synthesis (B) Wurtz's synthesis (C) Williamson's synthesis (D) Grignard's synthesis

saurabh kumar , 11 Years ago

Grade 12 1 Answers

Askiitians Tutor Team

The reaction you mentioned, C2H5ONa + C2H5I → C2H5OC2H5 + NaI, is known as Williamson's synthesis. This method is a classic approach in organic chemistry for forming ethers from alcohols and alkyl halides. Let’s break down why this is the case and what makes Williamson's synthesis unique.

Understanding Williamson's Synthesis

Williamson's synthesis involves the reaction of an alkoxide ion (in this case, C2H5O^-) with a primary alkyl halide (C2H5I). The alkoxide is generated from an alcohol (C2H5OH) by reacting it with a strong base, such as sodium (Na). The alkoxide then acts as a nucleophile, attacking the electrophilic carbon in the alkyl halide, leading to the formation of an ether.

Key Features of the Reaction

• Nucleophilic Substitution: The reaction is a type of nucleophilic substitution, where the alkoxide ion replaces the iodide ion in the alkyl halide.
• Formation of Ethers: The product, C2H5OC2H5, is an ether, specifically diethyl ether, which is a common solvent in organic reactions.
• Base Requirement: A strong base is necessary to generate the alkoxide from the alcohol, which is a crucial step in this synthesis.

Comparison with Other Syntheses

To clarify why this reaction is not classified under the other options:

• Kolbe's Synthesis: This method involves the electrolysis of sodium or potassium salts of carboxylic acids to form alkenes, not ethers.
• Wurtz's Synthesis: This reaction is used to couple alkyl halides using sodium metal to form alkanes, which is different from ether formation.
• Grignard's Synthesis: Grignard reagents are used to form alcohols and other compounds, but they do not directly lead to ether formation from alkyl halides.

Practical Applications

Williamson's synthesis is widely used in organic chemistry for the preparation of various ethers, which are important solvents and intermediates in chemical synthesis. The reaction's versatility allows chemists to create a wide range of ether compounds by selecting different alcohols and alkyl halides.

Conclusion

In summary, the reaction C2H5ONa + C2H5I → C2H5OC2H5 + NaI is a classic example of Williamson's synthesis, a fundamental method for producing ethers through nucleophilic substitution. Understanding this reaction not only helps in grasping the concept of ether formation but also highlights the importance of reaction mechanisms in organic chemistry.

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