Textbook Question
Predict the products of self-condensation of the following esters.
(a) methyl propanoate + NaOCH3
(b) ethyl phenylacetate + NaOCH2CH3
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25. Condensation Chemistry
Claisen Condensation
6:29 minutesProblem 32
Textbook Question
Write the mechanism for the reaction of a 1,7-diester with an alkoxide ion to form a cyclic b-keto ester.
Verified step by step guidance1
Identify the starting material: The 1,7-diester contains two ester groups separated by six carbon atoms. This structure allows for the formation of a six-membered ring during the reaction.
Recognize the role of the alkoxide ion: The alkoxide ion acts as a base, abstracting a proton from the α-carbon (the carbon adjacent to one of the ester groups) to generate an enolate ion. This enolate is stabilized by resonance between the α-carbon and the carbonyl group.
Illustrate the nucleophilic attack: The enolate ion, acting as a nucleophile, attacks the carbonyl carbon of the second ester group within the same molecule. This intramolecular reaction forms a new carbon-carbon bond, initiating the formation of a six-membered ring.
Depict the tetrahedral intermediate: The nucleophilic attack results in a tetrahedral intermediate at the carbonyl carbon of the second ester group. This intermediate is unstable and will collapse, leading to the elimination of the alkoxide group (from the second ester).
Show the final product: The elimination of the alkoxide group results in the formation of a cyclic β-keto ester. The six-membered ring structure is stabilized by the conjugation between the ketone and ester groups.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Diester Reactivity
Diesters are compounds containing two ester functional groups. In the context of organic reactions, they can undergo nucleophilic attack due to the electrophilic nature of the carbonyl carbon. Understanding the reactivity of diesters is crucial for predicting how they will interact with nucleophiles, such as alkoxide ions, in a reaction mechanism.
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Nucleophilic Substitution Mechanism
Nucleophilic substitution is a fundamental reaction mechanism in organic chemistry where a nucleophile attacks an electrophile, resulting in the replacement of a leaving group. In this case, the alkoxide ion acts as the nucleophile, attacking the carbonyl carbon of the diester, leading to the formation of a cyclic structure. Familiarity with this mechanism is essential for understanding how cyclic b-keto esters are formed.
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Cyclic b-Keto Esters
Cyclic b-keto esters are cyclic compounds that contain both a ketone and an ester functional group. Their formation often involves intramolecular reactions, where a nucleophile attacks a carbonyl within the same molecule. Recognizing the structure and properties of cyclic b-keto esters is important for predicting their stability and reactivity in further chemical transformations.
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