Capillary atmospheric pressure electron capture ionization (cAPECI): a highly efficient ionization method for nitroaromatic compounds
Autor: | Iustinian Bejan, Hannah Sonderfeld, Klaus J. Brockmann, Sonja Wilberscheid, Valerie Derpmann, David Mueller, Thorsten Benter, Ralf Koppmann |
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Rok vydání: | 2013 |
Předmět: |
Chemical ionization
Spectrometry Mass Electrospray Ionization Chemistry Analytical chemistry Thermal ionization Electrons Equipment Design Ion source Atmospheric-pressure laser ionization Electron capture ionization Nitrophenols Kinetics Atmospheric Pressure Structural Biology Ionization Oxidation-Reduction Spectroscopy Electron ionization Ambient ionization |
Zdroj: | Journal of the American Society for Mass Spectrometry. 25(3) |
ISSN: | 1879-1123 |
Popis: | We report on a novel method for atmospheric pressure ionization of compounds with elevated electron affinity (e.g., nitroaromatic compounds) or gas phase acidity (e.g., phenols), respectively. The method is based on the generation of thermal electrons by the photo-electric effect, followed by electron capture of oxygen when air is the gas matrix yielding O2 – or of the analyte directly with nitrogen as matrix. Charge transfer or proton abstraction by O2 – leads to the ionization of the analytes. The interaction of UV-light with metals is a clean method for the generation of thermal electrons at atmospheric pressure. Furthermore, only negative ions are generated and neutral radical formation is minimized, in contrast to discharge- or dopant assisted methods. Ionization takes place inside the transfer capillary of the mass spectrometer leading to comparably short transfer times of ions to the high vacuum region of the mass spectrometer. This strongly reduces ion transformation processes, resulting in mass spectra that more closely relate to the neutral analyte distribution. cAPECI is thus a soft and selective ionization method with detection limits in the pptV range. In comparison to standard ionization methods (e.g., PTR), cAPECI is superior with respect to both selectivity and achievable detection limits. cAPECI demonstrates to be a promising ionization method for applications in relevant fields as, for example, explosives detection and atmospheric chemistry. |
Databáze: | OpenAIRE |
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