To convert a compound with the molecular formula C10H10O4 to one with the molecular formula C10H15N, a reaction that introduces nitrogen and removes oxygen along with additional hydrogen is needed.
Here's a general approach to think about such a transformation:
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Identify a Functional Group: The starting compound (C10H10O4) likely contains functional groups such as carboxylic acids, esters, or alcohols. The ending compound (C10H15N) suggests the presence of an amine.
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Reduction and Substitution Reactions:
- Reduction: Some of the oxygen atoms in C10H10O4 could be reduced (e.g., converting carbonyls or carboxylic acids to alcohols or hydrocarbons).
- Amine Formation: Introduce a nitrogen atom via amination (adding an amine or ammonia) or through a reaction that involves creating an amine derivative.
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Example Reaction: One hypothetical reaction pathway could involve the reductive amination of a carbonyl compound generated from C10H10O4 to form the desired amine. For example, if C10H10O4 contains a ketone, it can react with ammonia or an amine in the presence of a reducing agent.
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Reaction Conditions: The specific reaction conditions (solvents, temperatures, catalysts) would greatly depend on the exact structure of the starting material and the desired final product.
Since the detailed structure of C10H10O4 is not provided, it’s difficult to outline a specific synthesis. If you have a particular compound in mind or the specific structure of C10H10O4, please provide that for a more tailored response!