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Tuning The Selectivity Of Ionic Liquid Stationary Phases For Enhanced Separation Of Nonpolar Analytes In Kerosene Using Multidimensional Gas Chromatography, Leandro W. Hantao, Ali Najafi, Cheng Zhang, Fabio Augusto, Jared L. Anderson
Tuning The Selectivity Of Ionic Liquid Stationary Phases For Enhanced Separation Of Nonpolar Analytes In Kerosene Using Multidimensional Gas Chromatography, Leandro W. Hantao, Ali Najafi, Cheng Zhang, Fabio Augusto, Jared L. Anderson
Jared L. Anderson
In this study, a series of ionic liquids (ILs) are evaluated as stationary phases in comprehensive two-dimensional gas chromatography (GC × GC) for the separation of aliphatic hydrocarbons from kerosene. IL-based stationary phases were carefully designed to evaluate the role of cavity formation/dispersive interaction on the chromatographic retention of nonpolar analytes by GC × GC. The maximum allowable operating temperature (MAOT) of the IL-based columns was compared to that of commercial IL-based columns. Evaluation of the solvation characteristics of GC columns guided the selection of the best performing IL-based stationary phases for the resolution of aliphatic hydrocarbons, namely, trihexyl(tetradecyl)phosphonium tetrachloroferrate …
Exploiting The Versatility Of Ionic Liquids In Separation Science: Determination Of Low-Volatility Aliphatic Hydrocarbons And Fatty Acid Methyl Esters Using Headspace Solid-Phase Microextraction Coupled To Gas Chromatography, Yunjing Meng, Veronica Pino, Jared L. Anderson
Exploiting The Versatility Of Ionic Liquids In Separation Science: Determination Of Low-Volatility Aliphatic Hydrocarbons And Fatty Acid Methyl Esters Using Headspace Solid-Phase Microextraction Coupled To Gas Chromatography, Yunjing Meng, Veronica Pino, Jared L. Anderson
Jared L. Anderson
The determination of high-molecular weight aliphatic hydrocarbons and fatty acid methyl esters possessing high boiling points and low vapor pressures was performed using a headspace solid-phase microextraction gas chromatography (HS-SPME-GC) method comprised entirely of ionic liquids (ILs). The method utilizes three independently structurally engineered ILs in which the imparted physical and chemical properties make them compatible with the requirements of each component of the method. Component one is composed of a thermally stable IL solvent used to increase the equilibrium concentration of analytes in the HS, component two is a SPME sorbent coating based on a polymeric ionic liquid (PIL) …