Aspirin Preparation (Edexcel A Level Chemistry): Revision Note
Core Practical 16: Preparation of Aspirin
This practical covers a number of key laboratory skills
use appropriate apparatus to record a range of measurements
use water bath or electric heater or sand bath for heating
use laboratory apparatus for a variety of experimental techniques
purify a solid product by recrystallisation
use melting point apparatus
safely and carefully handle solids and liquids
Synthesis of Aspirin
Key steps in the procedure
6.0 g of salicylic acid is added to a conical flask along with 10 cm3 of ethanoic anhydride and 5 drops of concentrated sulfuric acid
The mixture is swirled and held in a warm water bath around 60 oC for about 20 minutes
The flask is then allowed to cool and the contents are added to 75 cm3 cold water in a beaker at which point the aspirin crystallises out
The aspirin is recovered using Buchner filtration and left to dry
The preparation of aspirin using a hot water bath
Recrystallisation and melting point test
The impure aspirin is recrystalised using ethanol, and when the solid has dissolved the solution is poured over 40 cm3 cold water and recovered using Buchner filtration as before
The melting point of pure aspirin is 135 oC, so the purity of the product can be assessed
Recrystallisation
Recrystallisation is used to purify impure solids
The principle is that a hot solvent is used to dissolve both the organic solid and the impurities and then as the solution cools the solid crystallises out and leaves behind the impurities in the solution
The key is using the minimum amount of solvent to dissolve the solid and avoid loss of the product
If any solid impurities remain in the solution, a hot filtration can be carried out
Once the solution has cooled down to room temperature and crystallised then the product crystals can be recovered by filtration
This is faster using Buchner apparatus in which filtration occurs under reduced pressure
Recrystallisation and Buchner filtration
After filtration the product is washed with fresh cold solvent and then allowed to dry on filter paper
Examiner Tips and Tricks
Recrystallisation can be repeated more than once to ensure a very pure product, but each time the yield of product will decrease. Slow cooling results in bigger well defined crystals which are easier to filter and dry.
Melting point analysis
The melting point of a solid is indicative of its purity and identity
A melting point can be matched to a known substance as a means of identification or confirmation of a desired product
The proximity of a melting point to the actual data book value can express purity
Impurities tend to lower the melting point of a solid
The melting point range also reveals the degree of purity
Pure substances have sharp well defined melting points
Impure substances have a broad melting point range, i.e. a large difference between when the substance first melts until it completely melts
The skills needed in performing a melting point test are largely dependent on the specific melting point apparatus you are using
However, there are some common key skills:
Correctly preparing the melting point tubes
Heating the tubes very slowly
Repeating to get a range of measurements (three would be normal)
The sample solid must be totally dry and finely powdered - this can be achieved by crushing it with the back of a spatula onto some filter paper or the back of a white tile (this absorbs any moisture)
Use the first tube to find the approximate melting point range and then repeat using a much slower heating rate
Melting point test using an oil bath
Melting point test using a Thiele tube
Melting point test using a melt station
Examiner Tips and Tricks
Always quote a melting point as a range + or - and reference a data book value if you have one.
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