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| Home > JCE Print > Journal of Chemical Education > Issues >
1998
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April
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In the Laboratory
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Quantitative HPLC Analysis of an Analgesic/Caffeine Formulation: Determination of Caffeine
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Glenda K. Ferguson
Wesleyan College, Department of Chemistry, 4760 Forsyth Road, Macon, GA 31297
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April 1998
Vol. 75 No. 4
p. 467
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| Abstract |
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A modern high performance liquid chromatography (HPLC) laboratory experiment which entails the separation of acetaminophen, aspirin, and caffeine and the quantitative assay of caffeine in commercial mixtures of these compounds has been developed. Our HPLC protocol resolves these compounds in only three minutes with a straightforward chromatographic apparatus which consists of a C-18 column, an isocratic mobile phase, UV detection at 254 nm, and an integrator; an expensive, sophisticated system is not required. The separation is both repeatable and rapid. Moreover, the experiment can be completed in a single three-hour period. The experiment is appropriate for any chemistry student who has completed a minimum of one year of general chemistry and is ideal for an analytical or instrumental analysis course.
The experiment detailed herein involves the determination of caffeine in Goody's Extra Strength Headache Powders, a commercially available medication which contains acetaminophen, aspirin, and caffeine as active ingredients. However, the separation scheme is not limited to this brand of medication nor is it limited to caffeine as the analyte. With only minor procedural modifications, students can simultaneously quantitate all of these compounds in a commercial mixture.
In our procedure, students prepare a series of four caffeine standard solutions as well as a solution from a pharmaceutical analgesic/caffeine mixture, chromatographically analyze each solution in quadruplicate, and plot relative average caffeine standard peak area versus concentration. From the mathematical relationship that results, the concentration of caffeine in the commercial formulation is obtained. Finally, the absolute standard deviation of the mean concentration is calculated.
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| More Information |
 Citation |
Glenda K. Ferguson. J. Chem. Educ. 1998 75 467.
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Keywords |
Laboratory Instruction, Chromatography, Drugs/Pharmaceuticals, Quantitative Analysis, Analytical Chemistry
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History |
Created:
Last Updated: |
June 25, 1999
June 24, 2005
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| Home > JCE Print > Journal of Chemical Education > Issues >
1998
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April
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467
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