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Anal Chem

Title:		Direct quantitative analysis of organic compounds in the gas and particle phase using a modified atmospheric pressure chemical ionization source in combination with ion trap mass spectrometry
Author(s):		Warscheid B; Kuckelmann U; Hoffmann T;
Address:		"Institute of Spectrochemistry and Applied Spectroscopy, ISAS, P.O.Box 101352, 44013 Dortmund, Germany"
Journal Title:		Anal Chem
Year:		2003
Volume:		75
Issue:		6
Page Number:		1410 - 1417
DOI:		10.1021/ac025788d
ISSN/ISBN:		0003-2700 (Print) 0003-2700 (Linking)
Abstract:		"A slightly modified atmospheric pressure chemical ionization source is employed for direct quantitative analysis of volatile or semivolatile organic compounds in air. The method described here is based on the direct introduction of an analyte in the gas or particle phase, or both, into the ion source of a commercial ion trap mass spectrometer. For quantitation, a standard solution is directly transferred into the vaporizer unit of the ion source via a deactivated fused-silica capillary by using the sheath liquid syringe pump, which is part of the mass spectrometer. The standard addition procedure is conducted by varying the pump rate of a diluted solution of the standard compound in methanol/water. A N2 sheath gas flow is applied for optimal vaporization and mixing with the analyte gas stream. By performing detailed reagent ion monitoring experiments, it is shown that the relative signal intensity of [M + H]+ ions is dependent on the relative humidity of the analyte gas stream as well as the composition and concentration of CI reagent ions. The method is validated by a comparison of the standard addition results with a calibration test gas of known concentration. To demonstrate the potential of atmospheric pressure chemical ionization mass spectrometry as a quantitative analytical technique for on-line investigations, a tropospherically relevant reaction is carried out in a 493-L reaction chamber at atmospheric pressure and 296 K in synthetic air at 50% relative humidity. Finally, the applicability of the technique to rapidly differentiate between analytes in the gas and particle phase is demonstrated"
Keywords:
Notes:		"PubMed-not-MEDLINEWarscheid, Bettina Kuckelmann, Ulrich Hoffmann, Thorsten eng 2003/03/28 Anal Chem. 2003 Mar 15; 75(6):1410-7. doi: 10.1021/ac025788d"