During the last years, the research in the enantioselective Ultra High Performance Chromatography (eUHPC) is going to push the limits of high efficient and ultrafast analyses. In this work, novel Chiral Stationary Phases (CSPs) were prepared by covalently bonding the teicoplanin selector (TE_A2-2) on Halo 2.7µm 160Å and 3.4µm 400Å Superficially Porous silica Particles (SPP). An innovative bonding protocol allowed to obtain a zwitterionic teicoplanin based CSP, which was used to produce the already known UHPC-FPP-Titan-Tzwitt CSP based on 1.9 µm 120Å Fully Porous monodispersed silica Particles (FPP) and UHPC-SPP-Halo90-Tzwitt CSP 2.0 µm [1-3]. Columns with an internal diameter of 4.6 mm and different lengths (50 and 100 mm) were packed with all CSPs and characterized in terms of permeability, efficiency and thermodynamic under HILIC conditions. The kinetic performance was evaluated through the use of van Deemter curves. The UHPC-SPP-Halo160-Tzwitt 2.7 µm column exhibited extremely high efficiencies on both achiral (>323,000 theoretical plates/meter, N/m; hr: 1.14) and chiral compounds (>240,000 N/m; hr: 1.53) under HILIC conditions, attesting the high potential of this CSP from the kinetic viewpoint. An extreme efficiency was recorded by using the HPC-SPP-Halo400-Tzwitt 3.4 µm column which allowed to achieve an efficiency of 280’000 N/m on naphthalene (hr: 1.05). Furthermore, taking into account the thermodynamic viewpoint, the UHPC-SPP-Halo160-Tzwitt 2.7 µm exhibited the highest resolution power (Rs/tr,2) thanks to its enantioselectivity values because of the higher selector density on the silica matrix. In conclusion, in this study we demonstrate the potential of the use of SPP macroporous silica particles in the UHPLC chiral field opening an interesting scenario in the chiral chromatography area. [1] O.H. Ismail, A. Ciogli, C. Villani, M. De Martino, M. Pierini, A. Cavazzini, D.S. Bell, F. Gasparrini, J. Chromatogr. A, 1427 (2016) 55–68. [2] O.H. Ismail, M. Antonelli, A. Ciogli, C. Villani, A. Cavazzini, M. Catani, F. Gasparrini, J. Chromatogr. A, 1520 (2017) 91–102 [3] O.H. Ismail, M. Antonelli, A. Ciogli, M. De Martino, M. Catani, C. Villani, A. Cavazzini, M. Ye, D.S. Bell, F. Gasparrini, J. Chromatogr. A., 1576 (2018), 42-50.
Exploring the potential of zwitterionic teicoplanin-based CSPs by using macroporous superficially porous silica particles 2.7 µm 160Å and 3.4 µm 400Å
Omar H. Ismail;Alberto Cavazzini;Martina Catani;
2019
Abstract
During the last years, the research in the enantioselective Ultra High Performance Chromatography (eUHPC) is going to push the limits of high efficient and ultrafast analyses. In this work, novel Chiral Stationary Phases (CSPs) were prepared by covalently bonding the teicoplanin selector (TE_A2-2) on Halo 2.7µm 160Å and 3.4µm 400Å Superficially Porous silica Particles (SPP). An innovative bonding protocol allowed to obtain a zwitterionic teicoplanin based CSP, which was used to produce the already known UHPC-FPP-Titan-Tzwitt CSP based on 1.9 µm 120Å Fully Porous monodispersed silica Particles (FPP) and UHPC-SPP-Halo90-Tzwitt CSP 2.0 µm [1-3]. Columns with an internal diameter of 4.6 mm and different lengths (50 and 100 mm) were packed with all CSPs and characterized in terms of permeability, efficiency and thermodynamic under HILIC conditions. The kinetic performance was evaluated through the use of van Deemter curves. The UHPC-SPP-Halo160-Tzwitt 2.7 µm column exhibited extremely high efficiencies on both achiral (>323,000 theoretical plates/meter, N/m; hr: 1.14) and chiral compounds (>240,000 N/m; hr: 1.53) under HILIC conditions, attesting the high potential of this CSP from the kinetic viewpoint. An extreme efficiency was recorded by using the HPC-SPP-Halo400-Tzwitt 3.4 µm column which allowed to achieve an efficiency of 280’000 N/m on naphthalene (hr: 1.05). Furthermore, taking into account the thermodynamic viewpoint, the UHPC-SPP-Halo160-Tzwitt 2.7 µm exhibited the highest resolution power (Rs/tr,2) thanks to its enantioselectivity values because of the higher selector density on the silica matrix. In conclusion, in this study we demonstrate the potential of the use of SPP macroporous silica particles in the UHPLC chiral field opening an interesting scenario in the chiral chromatography area. [1] O.H. Ismail, A. Ciogli, C. Villani, M. De Martino, M. Pierini, A. Cavazzini, D.S. Bell, F. Gasparrini, J. Chromatogr. A, 1427 (2016) 55–68. [2] O.H. Ismail, M. Antonelli, A. Ciogli, C. Villani, A. Cavazzini, M. Catani, F. Gasparrini, J. Chromatogr. A, 1520 (2017) 91–102 [3] O.H. Ismail, M. Antonelli, A. Ciogli, M. De Martino, M. Catani, C. Villani, A. Cavazzini, M. Ye, D.S. Bell, F. Gasparrini, J. Chromatogr. A., 1576 (2018), 42-50.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
