AI Article Synopsis
- Sub-2-µm particle size hydrophilic interaction liquid chromatography (HILIC) with mass spectrometry is gaining traction for analyzing polar compounds, offering advantages over reversed-phase LC in terms of compound ionization.
- The study investigates the use of acetone as a mobile phase modifier in HILIC, assessing its effect on signal-to-noise ratios in electrospray ionization mass spectrometry (ESI-MS) for various polar analytes.
- The findings reveal specific conditions where acetone can outperform acetonitrile, emphasizing the need for optimized mass spectrometry parameters to enhance sensitivity and stability based on solvent composition.
Article Abstract
Sub-2-µm particle size hydrophilic interaction liquid chromatography [HILIC] combined with mass spectrometry has been increasing in popularity as a complementary technique to reversed-phase LC for the analysis of polar analytes. The organic-rich mobile phase associated with HILIC techniques provides increases in compound ionization, due to increased desolvation efficiency during electrospray ionisation mass spectrometric (ESI-MS) analysis. Although recent publications illustrated selectivity and response comparisons between reversed-phase LC/MS and HILIC LC/MS, there are limited discussions evaluating the optimisation of the mass spectrometry parameters regarding analytes and alternative mobile phases. The use of acetone as an alternative organic modifier in HILIC has been investigated with respect to signal-to-noise in ESI-MS for a variety of polar analytes. Analyte reponses were measured based on a variety of cone and capillary voltages at low and high pH in both acetone and acetonitrile. In order to visualise compound behaviour in the ESI source, surface plots were constructed to assist in interpreting the observed results. The use of acetone in ESI is complicated at low m/z due to the formation of condensation products. Favourable responses were observed for certain analytes and we envisage offering an insight into the use of acetone as an alternative to acetonitrile under certain analytical conditions for particular compound classifications for small molecule analysis. We also highlight the importance of optimising source voltages in order to obtain the maximum signal stability and sensitivity, which are invariably, highly solvent composition dependent parameters.
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| http://dx.doi.org/10.1002/rcm.5271 | DOI Listing |
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