Recommendations for selection of a liquid stationary phase and geometric parameters of the column when determining triethylamine by gas chromatography

The article summarises the results of experimental studies that compared liquid stationary phases used in GC for determination of triethylamine residual solvent in medicinal products. It discusses the results of comparative evaluation of triethylamine peak area RSDs, retention times and tailing factors for different phases and solvents. The authors give recommendations concerning selection of chromatographic columns for triethylamine determination.

контроль качества, газожидкостная хроматография, стационарные фазы, триэтиламин, фактор асимметрии пика, quality control, gas chromatography, stationary phase, triethylamine, tailing factor

1. The State Pharmacopoeia of the Russian Federation. 13th ed. V. I. Moscow; 2015. Available from: http://femb.ru/feml (in Russian).

2. European Pharmacopaeia. 9th ed. Strasbourg; 2017.

3. Kataoka H. Gas chromatography with selective detectors for amines. In: Encyclopedia of Analytical chemistry. John Wiley & Sons; 2006. P. 1–31.

4. Duff KJ. Gas and liquid chromatography, column selection for, in drug analysis. In: Encyclopedia of Analytical chemistry. John Wiley & Sons; 2006. P. 1–51.

5. Tian J, Chen G, He Z. Overcoming matrix effects: GC method development for the determination of triethylamine and dimethyl sulfoxide in a drug substance. J Chromatogr Sci. 2014; 52(1): 36–41.

6. Namiesnik J, Jastrzebska A, Zygmunt B. Determination of volatile aliphatic amines in air by solid-phase microextraction coupled with gas chromatography with flame ionization detection. J Chromatogr A 2003; 1016(1): 1–9.

7. de Zeeuw J. Peak tailing in GC trace analysis [Internet]. Available from: https://goo.gl/yc7G7Z.

8. How column inertness improves the chromatography of basic compounds [Internet]. Available from: https://goo.gl/zVLU5N.

9. Rtx-5 Amine columns [Internet]. Available from: https://goo.gl/cxMM5r.