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Manufacture of Aspirin Simplified Revision Notes for A-Level AQA Chemistry
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7.3.6 Manufacture of Aspirin
Manufacturing of Aspirin
Aspirin, a widely used pharmaceutical, is synthesized via an acylation reaction involving salicylic acid and ethanoic anhydride. This reaction is a key application of acylation in the pharmaceutical industry, with similar acylation reactions also used in other sectors, such as textiles (e.g., making cellulose acetate).
Reaction Overview:
The synthesis of aspirin from salicylic acid and ethanoic anhydride proceeds as follows:
- Reactants:
- Salicylic Acid: Provides the phenolic group that undergoes acylation.
- Ethanoic Anhydride: Serves as the acylating agent, transferring an acyl group to salicylic acid.
- Products:
- Aspirin: The desired pharmaceutical product, which is an ester.
- Ethanoic Acid: A by-product that is relatively mild and non-corrosive.
Industrial Advantages of Using Ethanoic Anhydride over Ethanoyl Chloride
In aspirin manufacturing, ethanoic anhydride is preferred over ethanoyl chloride for several reasons:
- Cost-Effectiveness:
- Ethanoic anhydride is generally cheaper to produce than ethanoyl chloride, making it more economical for large-scale production.
- Controlled Reactivity:
- Ethanoic anhydride is less reactive than ethanoyl chloride, allowing for a more controlled reaction process. This control minimizes the risk of unwanted side reactions and excessive heat release, which can be challenging to manage industrially.
- By-Products:
- The reaction with ethanoic anhydride produces ethanoic acid as a by-product, which is relatively safe and non-corrosive. In contrast, the reaction of ethanoyl chloride would produce hydrogen chloride gas, a highly corrosive and hazardous by-product that requires careful handling.
- Reaction Conditions:
- Reactions with ethanoyl chloride tend to be very fast and highly exothermic, making them harder to control, particularly on an industrial scale. Ethanoic anhydride, being less reactive, allows for a milder, more easily managed reaction environment.
Summary
In summary, ethanoic anhydride is the acylating agent of choice for aspirin production due to its lower cost, lower reactivity (providing more manageable reaction conditions), and the production of safer by-products. These factors contribute to a safer and more economically viable manufacturing process, aligning with industrial standards for large-scale pharmaceutical production.
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