Caffeine Quantification Via High-Precision Coulometric Titration-Reference-Cited by-同舟云学术

Caffeine Quantification Via High-Precision Coulometric Titration

Published:2023-09-24 Issue:4 Volume:19 Page:115-127
ISSN:2687-0886
Container-title:Measurement Standards. Reference Materials
language:
Short-container-title:Stand. obraz.

Author:

Shimolin A. Yu.¹^ORCID

Affiliation:

1. UNIIM – Affiliated Branch of the D. I. Mendeleyev Institute for Metrology

Abstract

Caffeine has traditionally been used to assess and control the metrological characteristics of liquid chromatographs. In recent years, with increasing requirements for the traceability of measurement results, the use of caffeine as a reagent for verification, calibration, and type approval tests has started to contradict the effective regulations governing measurement uniformity. This study aims to develop and test a procedure of caffeine quantification in caffeine via primary coulometric titration for the metrological support of high-performance liquid chromatography (HPLC) with an accuracy of no more than 1 % abs. In the course of work, a detailed analysis of methods for determining caffeine content in various matrices was carried out; in addition, a procedure for determining caffeine mass fraction in caffeine via coulometric titration was developed and tested. A comparison of the obtained results with caffeine mass fraction measurements performed using HPLC confirmed the commutativity of coulometric titration and HPLC. The developed procedure of caffeine quantification in caffeine via primary coulometric titration employing GET 176 can be used to develop a caffeine composition reference material and to provide metrological traceability of HPLC measurements on its basis to state primary standards reproducing the «mass fraction of components» and to SI units (Systeme international d’unites, SI).

Publisher

Ural Research Institute of Metrology (UNIIM)

Subject

General Medicine

Reference17 articles.

1. W. Richter. Primary methods of measurement in chemical analysis. Accreditation and Quality Assurance. 1997;2:354–359. https://doi.org/10.1007/s007690050165

2. Turusova E. V., Nasakin O. E. The application of photo-generated iodine for quantitative determination of caffeine in medicines. Russian Journal of Biopharmaceuticals. 2022;14(4). https://doi.org/0.30906/2073-8099-2022-14-4-33-38

3. Vorontsova O. S. Comparative analysis of methods for caffeine determination in coffee, soluble coffee and energy drinks. Zdorove i okruzhajushhaja sreda. 2015;25(2):193–196. (In Russ.).

4. Solov’eva S. I., Serazhutdinova L. D., Malyh M. A., Dolgunina L. V., Vasil’eva E. V. Comparative analysis of methods for determining caffeine in coffee. Kontrol’ kachestva produkcii. Available via Standards and quality. https://ria-stk.ru/mos/adetail.php?ID=8214. [Accessed: 8 August 2022]. (In Russ.).

5. Mjakinkov A. G. Determination of the caffeine content in tea and coffee by classical analytical methods. Pishhevaja i pererabatyvajushhaja promyshlennost’. Referativnyj zhurnal 2003;1:304. (In Russ.).