Direct Determination of Trace Nitrogen Dioxide by Atmospheric Pressure Ionization Mass Spectrometry(APIMS)without Conversion to Nitric Oxide
Environmental Health and Preventive Medicine
; : 97-102, 2000.
Article
in Ja
| WPRIM
| ID: wpr-361601
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WPRO
ABSTRACT
The aim of this study was to develop a new method for the determination of NO2 levels encountered in clinical settings as well as in environmental studies, using a bi−component atmospheric pressure ionization mass spectrometry(APIMS). Hydrogen (1%) diluted in pure argon was ionized by corona discharge in the first ionization component. Fifty ml of the analyte diluted in 250ml of composite air or carbon dioxide (CO2) was introduced into the second ionization component and analyzed. When composite air was used as the sample carrier gas, NO in the analyte was oxygenated and there was an increase in the NO2 content from that in the original analyte. However, when CO2 was used as the sample carrier gas, the level of NO2 in the analyte could be determined because CO2 did not change the NO2 content from that in the original analyte. A calibration curve with good linearity was obtained using the UG−410 APIMS system, with a regression equation of Y(%)=5.513*10-2 X(ppb) and a detection limit of 0.9ppb. Since APIMS detects NO2 directly within its system, the concentration of NO does not need to be measured. This system may be of great help in the accurate detection and determination of the concentration of low levels of NO2 during inhaled NO therapy
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Index:
WPRIM
Main subject:
Mass Spectrometry
/
Carbon Dioxide
Language:
Ja
Journal:
Environmental Health and Preventive Medicine
Year:
2000
Type:
Article