Your search keyword '"Yuanzhong Yang"' showing total 6 results

1. Analysis of polar peptides using a silica hydride column and high aqueous content mobile phases

Author

Reinhard I Boysen, Chadin Kulsing, Joseph J. Pesek, Milton Thomas William Hearn, Yuanzhong Yang, and Maria T. Matyska

Subjects

Green chemistry, chemistry.chemical_compound, Acetic acid, Chromatography, Aqueous solution, Resolution (mass spectrometry), Chemistry, Formic acid, Phase (matter), Filtration and Separation, Acetonitrile, High-performance liquid chromatography, Analytical Chemistry

Abstract

The retention behavior of a set of polar peptides separated on a silica hydride stationary phase was examined with a capillary HPLC system coupled to ESI-MS detection. The mobile phases consisted of formic acid or acetic acid/acetonitrile/water mixtures with the acetonitrile content ranging from 5 to 80% v/v. The effects on peptide retention of these two acidic buffer additives and their concentrations in the mobile phase were systematically investigated. Strong retention of the peptides on the silica hydride phase was observed with relatively high-organic low-aqueous mobile phases (i.e. under aqueous normal-phase conditions). However, when low concentrations of acetic acid were employed as the buffer additive, strong retention of the peptides was also observed even when high aqueous content mobile phases were employed. This unique feature of the stationary phase therefore provides an opportunity for chromatographic analysis of polar peptides with water-rich eluents, a feature usually not feasible with traditional RP sorbents, and thus under conditions more compatible with analytical green chemistry criteria. In addition, both isocratic and gradient elution procedures can be employed to optimize peptide separations with excellent reproducibility and resolution under these high aqueous mobile phase conditions with this silica hydride stationary phase.

Published

2013

2. Selectivity differences of water-soluble vitamins separated on hydrophilic interaction stationary phases

Author

Reinhard I Boysen, Milton Thomas William Hearn, and Yuanzhong Yang

Subjects

chemistry.chemical_classification, Analyte, Chromatography, Hydrophilic interaction chromatography, Stacking, Salt (chemistry), Filtration and Separation, Analytical Chemistry, chemistry.chemical_compound, chemistry, Phase (matter), Amide, Selectivity, Water content

Abstract

In this study, the retention behavior and selectivity differences of water-soluble vitamins were evaluated with three types of polar stationary phases (i.e. an underivatized silica phase, an amide phase, and an amino phase) operated in the hydrophilic interaction chromatographic mode with ESI mass spectrometric detection. The effects of mobile phase composition, including buffer pH and concentration, on the retention and selectivity of the vitamins were investigated. In all stationary phases, the neutral or weakly charged vitamins exhibited very weak retention under each of the pH conditions, while the acidic and more basic vitamins showed diverse retention behaviors. With the underivatized silica phase, increasing the salt concentration of the mobile phase resulted in enhanced retention of the acidic vitamins, but decreased retention of the basic vitamins. These observations thus signify the involvement of secondary mechanisms, such as electrostatic interaction in the retention of these analytes. Under optimized conditions, a baseline separation of all vitamins was achieved with excellent peak efficiency. In addition, the effects of water content in the sample on retention and peak efficiency were examined, with sample stacking effects observed when the injected sample contained a high amount of water.

Published

2013

3. Simultaneous separation of hydrophobic and polar bases using a silica hydride stationary phase

Author

Milton Thomas William Hearn, Joseph J. Pesek, Reinhard I Boysen, Yuanzhong Yang, and Maria T. Matyska

Subjects

Aqueous solution, Stationary phase, Chemistry, Phase (matter), Analytical chemistry, Molecule, Polar, Filtration and Separation, Silica hydride, Selectivity, Mass spectrometry, Analytical Chemistry

Abstract

In this study, the retention behavior of selected hydrophobic and polar bases on a minimally modified silica hydride phase was investigated. From these results and the associated retention plots, significant differences in the chromatographic dependencies of these two classes of basic compounds were evident. The polar bases exhibited strong retention with mobile phases of high organic solvent content, but displayed weak retention with mobile phases of high water content. In contrast, the hydrophobic bases showed "U-shape" retention dependencies, indicative of the interplay of both RP and normal-phase retention characteristics. These studies have demonstrated that hydrophobic and polar bases can be simultaneously separated on the same column either under typical RP-like or aqueous normal-phase-like conditions, respectively, with distinctive selectivity. Finally, the effects of temperature on the RP and aqueous normal phase modality of separations with these analytes were investigated, where discrete changes in retention behavior were also observed.

Published

2013

4. Analysis of polar peptides using a silica hydride column and high aqueous content mobile phases

Author

Yuanzhong, Yang, Reinhard I, Boysen, Chadin, Kulsing, Maria T, Matyska, Joseph J, Pesek, and Milton T W, Hearn

Subjects

Spectrometry, Mass, Electrospray Ionization, Silicates, Water, Peptides, Chromatography, High Pressure Liquid

Abstract

The retention behavior of a set of polar peptides separated on a silica hydride stationary phase was examined with a capillary HPLC system coupled to ESI-MS detection. The mobile phases consisted of formic acid or acetic acid/acetonitrile/water mixtures with the acetonitrile content ranging from 5 to 80% v/v. The effects on peptide retention of these two acidic buffer additives and their concentrations in the mobile phase were systematically investigated. Strong retention of the peptides on the silica hydride phase was observed with relatively high-organic low-aqueous mobile phases (i.e. under aqueous normal-phase conditions). However, when low concentrations of acetic acid were employed as the buffer additive, strong retention of the peptides was also observed even when high aqueous content mobile phases were employed. This unique feature of the stationary phase therefore provides an opportunity for chromatographic analysis of polar peptides with water-rich eluents, a feature usually not feasible with traditional RP sorbents, and thus under conditions more compatible with analytical green chemistry criteria. In addition, both isocratic and gradient elution procedures can be employed to optimize peptide separations with excellent reproducibility and resolution under these high aqueous mobile phase conditions with this silica hydride stationary phase.

Published

2013

5. Selectivity differences of water-soluble vitamins separated on hydrophilic interaction stationary phases

Author

Yuanzhong, Yang, Reinhard I, Boysen, and Milton T W, Hearn

Subjects

Temperature, Vitamins, Hydrogen-Ion Concentration, Silicon Dioxide, Hydrophobic and Hydrophilic Interactions, Chromatography, High Pressure Liquid

Abstract

In this study, the retention behavior and selectivity differences of water-soluble vitamins were evaluated with three types of polar stationary phases (i.e. an underivatized silica phase, an amide phase, and an amino phase) operated in the hydrophilic interaction chromatographic mode with ESI mass spectrometric detection. The effects of mobile phase composition, including buffer pH and concentration, on the retention and selectivity of the vitamins were investigated. In all stationary phases, the neutral or weakly charged vitamins exhibited very weak retention under each of the pH conditions, while the acidic and more basic vitamins showed diverse retention behaviors. With the underivatized silica phase, increasing the salt concentration of the mobile phase resulted in enhanced retention of the acidic vitamins, but decreased retention of the basic vitamins. These observations thus signify the involvement of secondary mechanisms, such as electrostatic interaction in the retention of these analytes. Under optimized conditions, a baseline separation of all vitamins was achieved with excellent peak efficiency. In addition, the effects of water content in the sample on retention and peak efficiency were examined, with sample stacking effects observed when the injected sample contained a high amount of water.

Published

2012

6. Simultaneous separation of hydrophobic and polar bases using a silica hydride stationary phase

Author

Yuanzhong, Yang, Maria T, Matyska, Reinhard I, Boysen, Joseph J, Pesek, and Milton T W, Hearn

Subjects

Molecular Structure, Silicates, Water, Organic Chemicals, Hydrophobic and Hydrophilic Interactions, Mass Spectrometry, Chromatography, Liquid

Abstract

In this study, the retention behavior of selected hydrophobic and polar bases on a minimally modified silica hydride phase was investigated. From these results and the associated retention plots, significant differences in the chromatographic dependencies of these two classes of basic compounds were evident. The polar bases exhibited strong retention with mobile phases of high organic solvent content, but displayed weak retention with mobile phases of high water content. In contrast, the hydrophobic bases showed "U-shape" retention dependencies, indicative of the interplay of both RP and normal-phase retention characteristics. These studies have demonstrated that hydrophobic and polar bases can be simultaneously separated on the same column either under typical RP-like or aqueous normal-phase-like conditions, respectively, with distinctive selectivity. Finally, the effects of temperature on the RP and aqueous normal phase modality of separations with these analytes were investigated, where discrete changes in retention behavior were also observed.

Published

2012