Ionization of non-volatile organic compounds by fast heavy ions and their separation by mass spectrometry

We present results for direct on-line detection of semi-volatile compounds in air using membrane introduction ion trap mass spectrometry. Brief sampling periods of 10 seconds to 3 minutes produced linear and reproducible data for concentrations ranging from parts-per-trillion to parts-per-billion by

## Abstract An experimental method for the analysis of volatile organic compounds in polymers is described. The technique involves dynamic headspace sampling, collection, and concentration of the volatiles in a cold trap, followed by capillary column gas chromatography/mass spectometry. Flow switch

Site characterization for subsurface contaminants is time-consuming and costly. The Tri-Service Site Characterization and Analysis Penetrometer System (SCAPS) has been developed to reduce the time and cost required for site characterization. Probes are designed to detect specific classes of contamin

## A. Principles of Liquid Ionization (LPI) The principles of ionization and the experimental configu-FIGURE 1. Schematic diagram of a liquid ionization ion source.

## Abstract Two gas chromatographic methods, GC‐FID (flame ionization detection) and GC‐ELCD (electrolytic conductivity detector) are compared in tlie analysis of volatile organic sulfur compounds (VOSCs) in water samples with a membrane inlet mass spectrometry (MIMS) technique. Carbon disulfide, e

Complex sample matrices of estuarine biota tissue and bed sediment extracts were analyzed for selected chlorinated compounds. By using gas chromatography/positive chemical ionization/tandem mass spectrometry, the coeluting interferences present in gas chromatography/electron ionization mass spectrom