AI Article Synopsis
- Recent advancements in ion mobility spectrometry mass spectrometry (IMS-MS) by researchers like von Helden, Jarrold, and Clemmer enable the detailed analysis of chemical and biological compositions that were previously difficult to access.
- The study emphasizes new ionization methods, specifically focusing on transferring both volatile and nonvolatile compounds into gas-phase ions, which show greater selectivity compared to traditional electrospray ionization (ESI).
- Comparison of these new ionization techniques with ESI highlights their potential for offering deeper insights into chemical compositions directly from their environments, suggesting that they may eventually replace certain ESI-IMS-MS applications in the future.
Article Abstract
Exceptional ion mobility spectrometry mass spectrometry (IMS-MS) developments by von Helden, Jarrold, and Clemmer provided technology that gives a view of chemical/biological compositions previously not achievable. The ionization method of choice used with IMS-MS has been electrospray ionization (ESI). In this special issue contribution, we focus on fundamentals of heretofore unprecedented means for transferring volatile and nonvolatile compounds into gas-phase ions singly and multiply charged. These newer ionization processes frequently lead to different selectivity relative to ESI and, together with IMS-MS, may provide a more comprehensive view of chemical compositions directly from their original environment such as surfaces, e.g., tissue. Similarities of results using solvent- and matrix-assisted ionization are highlighted, as are differences between ESI and the inlet ionization methods, especially with mixtures such as bacterial extracts. Selectivity using different matrices is discussed, as are results which add to our fundamental knowledge of inlet ionization as well as pose additional avenues for inquiry. IMS-MS provides an opportunity for comparison studies relative to ESI and will prove valuable using the new ionization technologies for direct analyses. Our hypothesis is that some ESI-IMS-MS applications will be replaced by the new ionization processes and by understanding mechanistic aspects to aid enhanced source and method developments this will be hastened.
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| http://dx.doi.org/10.1007/s13361-019-02194-7 | DOI Listing |
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