Journal article
Detection of chemical warfare-related species on complex aerosol particles deposited on surfaces using an ion trap-based aerosol mass spectrometer
Analytical chemistry (Washington), Vol.79(6), pp.2354-2358
03/15/2007
Handle:
https://hdl.handle.net/2376/117551
PMID: 17269653
Abstract
A new type of aerosol mass spectrometer was developed by minimal modification of an existing commercial ion trap to analyze the semivolatile components of aerosols in real time. An aerodynamic lens-based inlet system created a well-collimated particle beam that impacted into the heated ionization volume of the commercial ion trap mass spectrometer. The semivolatile components of the aerosols were thermally vaporized and ionized by electron impact or chemical ionization in the source. The nascent ions were extracted and injected into the ion trap for mass analysis. The utility of this instrument was demonstrated by identifying semivolatile analytes in complex aerosols. This study is part of an ongoing effort to develop methods for identifying chemical species related to CW agent exposure. Our efforts focused on detection of CW-related species doped on omnipresent aerosols such as house dust particles vacuumed from various surfaces found in any office building. The doped aerosols were sampled directly into the inlet of our mass spectrometer from the vacuumed particle stream. The semivolatile analytes were deposited on house dust and identified by positive ion chemical ionization mass spectrometry up to 2.5 h after deposition. Our results suggest that the observed semivolatile species may have been chemisorbed on some of the particle surfaces in submonolayer concentrations and may remain hours after deposition. This research suggests that identification of trace CW agent-related species should be feasible by this technique.
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Details
- Title
- Detection of chemical warfare-related species on complex aerosol particles deposited on surfaces using an ion trap-based aerosol mass spectrometer
- Creators
- William A Harris - Oak Ridge National Laboratory, P.O. Box 2008, MS6142, Oak Ridge, Tennessee 37831, USAPeter T A ReillyWilliam B Whitten
- Publication Details
- Analytical chemistry (Washington), Vol.79(6), pp.2354-2358
- Academic Unit
- Chemistry, Department of
- Publisher
- United States
- Identifiers
- 99900548490601842
- Language
- English
- Resource Type
- Journal article