Introducing Enantioselective Ultrahigh-Pressure Liquid Chromatography (eUHPLC): Theoretical Inspections and Ultrafast Separations on a New Sub-2-渭m Whelk-O1 Stationary Phase
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- 作者:Dorina Kotoni ; Alessia Ciogli ; Carmela Molinaro ; Ilaria D鈥橝cquarica ; Jelena Kocergin ; Ted Szczerba ; Harald Ritchie ; Claudio Villani ; Francesco Gasparrini
- 刊名:Analytical Chemistry
- 出版年:2012
- 出版时间:August 7, 2012
- 年:2012
- 卷:84
- 期:15
- 页码:6805-6813
- 全文大小:458K
- 年卷期:v.84,no.15(August 7, 2012)
- ISSN:1520-6882
文摘
A new chiral stationary phase for ultrahigh-pressure liquid chromatography (UHPLC) applications was prepared by covalent attachment of the Whelk-O1 selector to spherical, high-surface-area 1.7-渭m porous silica particles. Columns of varying dimensions (lengths of 50, 75, 100, and 150 mm and internal diameters of 3.0 or 4.6 mm) were packed and characterized in terms of permeability, efficiency, retention, and enantioselectivity, using both organic and water-rich mobile phases. A conventional HPLC Whelk-O1 column based on 5.0-渭m porous silica particles and packed in a 250 mm 脳 4.6 mm column was used as a reference. Van Deemter curves, generated with low-molecular-weight solutes on a 100 mm 脳 4.6 mm column packed with the 1.7-渭m particles, showed Hmin (渭m) and 渭opt (mm/s) values of 4.10 and 5.22 under normal-phase and 3.74 and 4.34 under reversed-phase elution conditions. The flat C term of the van Deemter curves observed with the 1.7-渭m particles allowed the use of higher-than-optimal flow rates without significant efficiency loss. Kinetic plots constructed from van Deemter data confirmed the ability of the column packed with the 1.7-渭m particles to afford subminute separations with good efficiency and its superior performances in the high-speed regime, compared to the column packed with 5.0-渭m particles. Resolutions in the time scale of seconds were obtained using a 50-mm-long column in the normal phase or polar organic mode. The intrinsic kinetic performances of 1.7-渭m silica particles are retained in the Whelk-O1 chiral stationary phase, clearly demonstrating the potentials of enantioselective UHPLC in terms of high speed, throughput, and resolution.