Liquid Electron Ionization (LEI) is a powerful and robust interface for the qualitative and quantitative analysis of medium-low-molecular-weight compounds, including numerous environmental pollutants and toxicological substances. Although the robustness and performance of this interface have already been demonstrated, research on its optimization can still improve instrumental performance in terms of detectability. In this study, different setups of the interface’s vaporization micro-channel (VMC) made using different capillaries and various sizes were tested to evaluate the correspondent instrumental performance. The results show that a new combination of capillaries in the interface set up significantly improves instrumental detectability, reaching LOD values almost five times lower than those of the previous setup.
Optimizing Liquid Electron Ionization Interface to Boost LC-MS Instrumental Efficiency
Tommaso Grazioso;Genny Grasselli;Adriana Arigo;Giorgio Famiglini
;Achille Cappiello
2025
Abstract
Liquid Electron Ionization (LEI) is a powerful and robust interface for the qualitative and quantitative analysis of medium-low-molecular-weight compounds, including numerous environmental pollutants and toxicological substances. Although the robustness and performance of this interface have already been demonstrated, research on its optimization can still improve instrumental performance in terms of detectability. In this study, different setups of the interface’s vaporization micro-channel (VMC) made using different capillaries and various sizes were tested to evaluate the correspondent instrumental performance. The results show that a new combination of capillaries in the interface set up significantly improves instrumental detectability, reaching LOD values almost five times lower than those of the previous setup.| File | Dimensione | Formato | |
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separations_LEI_2025.pdf
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