Add to ORKGA hybrid stationary phase, XTerra MS C18, has been evaluated for the high temperature reversed phase liquid chromatography of selected hydrophobic steroids. The effects on the retention and efficiency at temperatures up to 130 °C and eluent compositions from methanol-water mixtures to superheated water were studied. The thermodynamic data of the separations were determined. It was shown that increasing the temperature enabled the percentage of methanol to be reduced. High mobile phase flow rates could be used but for these non-polar analytes the retention times with superheated water as the eluent were still high
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
The use of high temperatures (above 100 °C) in reversed-phase liquid chromatography (RP-HTLC) has op...
This project focused on the comparison of conventional liquid chromatography and superheated water c...
This project has focused on the study of hybrid phases at low percentage of organic modifier and pur...
This project has focused on the study of hybrid phases at low percentage of organic modifier and pur...
High temperature liquid chromatography is currently well established in separation sciences. The dec...
Control of column temperature has become increasingly accepted as a separation parameter in high per...
This project has focused on the applicability of using superheated water as an alternative eluent fo...
The chromatographic behavior of steroid hormones on four cholesterol-bonded stationary phases with d...
In this thesis, we established methods that use high-temperature HPLC for the efficient separation o...
Temperature-responsive liquid chromatography (TRLC) allows for extensive retention and selectivity t...
This project focused on the comparison of conventional liquid chromatography and superheated water c...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
Temperature-responsive liquid chromatography (TRLC) allows for extensive retention and selectivity t...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
The use of high temperatures (above 100 °C) in reversed-phase liquid chromatography (RP-HTLC) has op...
This project focused on the comparison of conventional liquid chromatography and superheated water c...
This project has focused on the study of hybrid phases at low percentage of organic modifier and pur...
This project has focused on the study of hybrid phases at low percentage of organic modifier and pur...
High temperature liquid chromatography is currently well established in separation sciences. The dec...
Control of column temperature has become increasingly accepted as a separation parameter in high per...
This project has focused on the applicability of using superheated water as an alternative eluent fo...
The chromatographic behavior of steroid hormones on four cholesterol-bonded stationary phases with d...
In this thesis, we established methods that use high-temperature HPLC for the efficient separation o...
Temperature-responsive liquid chromatography (TRLC) allows for extensive retention and selectivity t...
This project focused on the comparison of conventional liquid chromatography and superheated water c...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
Temperature-responsive liquid chromatography (TRLC) allows for extensive retention and selectivity t...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
This study focused on the capabilities of elevated temperature chromatography and its potential appl...
The use of high temperatures (above 100 °C) in reversed-phase liquid chromatography (RP-HTLC) has op...
This project focused on the comparison of conventional liquid chromatography and superheated water c...