Abstract
We studied the use of dimethyl carbonate (DMC) as a non-toxic, aprotic modifier for hydrophilic liquid interaction chromatography (HILIC) and as a modifier for normal-phase liquid chromatography (LC). A comparison of ethyl acetate (EA) and DMC as organic mobile-phase modifiers in hexane for normal-phase LC of phthalates was conducted with a silica column and showed that retention factors (k) at the same modifier percentage were about a factor of two greater for DMC. Detection at 215 nm, possible with DMC, allowed for the better detection of the phthalates by a factor of 10, compared with EA detection, best at a 254 nm wavelength. Using a core-shell silica column, HILIC separations of trans-ferulic acid, syringic acid, and vanillic acid were compared between acetonitrile (MeCN) and DMC as the organic portion of the mobile phase, from 80–95%. The analyte retention for DMC, when compared to MeCN, was about 1.5 times greater, with only a moderate increase in back pressure. Plate count and peak asymmetry were somewhat better for the DMC chromatograms, compared to those with MeCN. Seven mono- and di-hydroxybenzoic acid positional isomers could be resolved effectively with DMC. Sorbate and benzoate preservatives in commercial drinks were also determined.
Subject
Filtration and Separation,Analytical Chemistry
Reference43 articles.
1. Anastas, P.T., and Warner, J.C. (1998). Green Chemistry: Theory and Practice, Oxford University Press.
2. Core-shell particles: A way to greening liquid chromatography in environmental applications;Waterlot;Curr. Chromatogr.,2018
3. Plotka-Wasylka, J., and Namiesnik, J. (2019). Green Analytical Chemistry. Green Chemistry and Sustainable Technology, Springer.
4. An overview of green chromatographic analysis from pharmaceutical preparations;Dogan;Curr. Anal. Chem.,2021
5. An overview of recent advances in HPLC instrumentation;Zotou;Cent. Eur. J. Chem.,2012