Diane M. Diehl scite author profile

An un-derivatized 1.7 microm ethylene bridged hybrid (BEH) particle was evaluated for its utility in retaining polar species in hydrophilic interaction chromatography (HILIC), and was compared to a 3 microm un-derivatized silica material. Retentivity as a function of mobile phase pH, polar modifier and ACN content was examined. Also, the efficiency of the two particle substrates was compared by plotting HETP vs. linear velocity. Improved chemical resistance of the un-derivatized BEH particle was compared to un-derivatized silica at pH 5, demonstrating no performance deterioration over the course of 2000 injections for the BEH particle, while the silica particle deteriorated rapidly after 800 injections. Lastly, ESI-MS sensitivity as a function of particle size and separation mode was demonstrated. A 2.2 to 4.7-times higher ESI-MS response was observed on the 1.7 microm particle compared to the 3 microm particle, whereas a 5.6 to 8.8-times higher ESI-MS response was observed using HILIC as when compared to traditional RP chromatography.

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Influence of stationary phase chemistry and mobile‐phase composition on retention, selectivity, and MS response in hydrophilic interaction chromatography

Fountain

Diehl

et al. 2010

J of Separation Science

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A comprehensive retention and selectivity characterization of several hydrophilic interaction chromatography (HILIC) stationary phases was performed with 28 test probes in order to study the influence of particle type, surface chemistry, and mobile-phase pH on chromatographic retention, selectivity, and MS response. Selectivity differences were compared for columns operated at both low and high pH, while ESI-MS was used to study the effects of mobile-phase pH on signal response. Additionally, acetone was explored as a potential alternative to ACN as the weak HILIC solvent. Moderate differences in selectivity were observed on the same column operated at different pH, mostly due to acidic compounds. In addition, the MS response increased when a high pH mobile phase was used, particularly for analytes that were ionized with negative ESI-MS. Even larger selectivity differences were observed for different stationary phases evaluated with the same mobile phase. Acetone was not a suitable replacement for ACN in routine HILIC separations due to differences in selectivity and MS response. Finally, the data from this study were used to establish guidelines for rapid HILIC method development of polar compounds, which is demonstrated with a mixture of histidine dipeptides and organophosphonate nerve agent metabolites.

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Differences in preparative loadability between the charged and uncharged forms of ionizable compounds

Neue

Wheat

Mazzeo

et al. 2004

Journal of Chromatography A

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Chapter 2 Sampling and sample preparation

Ahuja¹,

Diehl²

2006

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Diane M. Diehl

Effects of extra-column band spreading, liquid chromatography system operating pressure, and column temperature on the performance of sub-2-μm porous particles

The application of novel 1.7 μm ethylene bridged hybrid particles for hydrophilic interaction chromatography

Influence of stationary phase chemistry and mobile‐phase composition on retention, selectivity, and MS response in hydrophilic interaction chromatography

Differences in preparative loadability between the charged and uncharged forms of ionizable compounds

Chapter 2 Sampling and sample preparation

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