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Characterization of organic compounds in 10- to 50-nm aerosol particles in boreal forest with laser desorption-ionization aerosol mass spectrometer and comparison with other techniques
Abstract The aim of this study was to characterize the organic composition of ambient ultrafine particles (<50nm) in a boreal forest environment and compare the analytical results obtained by different techniques with use a data analysis software. In the chromatographic techniques, particles were collected on a filter and analyzed off-line after sample preparation, whereas in the aerosol MS, particle analysis was performed directly from the particle source. Many compounds and chemical groups were identified with a laser aerosol mass spectrometer (laser AMS) and selected organic compounds, including acids, polyols, amines and aldehydes, from 50nm filter samples were quantified. Interesting components found with the laser AMS included oxygenated and aliphatic hydrocarbons, aromatic compounds, amines, and black carbon. The amines found on laser AMS may be related to new particle formation events at particle sizes 10–25nm. Correlations between the results obtained with different instruments were clarified, and the best correlations were found between laser AMS and 50-nm size filter samples. There were no correlations between the laser AMS data and meteorological data or on-line measured gas phase compounds. The black carbon found on laser AMS had moderate correlation for levoglucosan found on all-sized filter samples. Finally, the correlation analysis revealed that the information obtained from sub-50-nm size range particles and results for particles several times higher could not be directly compared.
Highlights ► Oxygenated, aliphatic hydrocarbons, aromatic compounds, amines, black carbon were found. ► Amines found on laser AMS related to particle formation events. ► Best correlations were found between laser AMS and 50-nm size filter samples. ► Laser AMS data and the meteorological data did not correlate. ► Black carbon correlated moderately for levoglucosan found in all-sized filter samples.
Characterization of organic compounds in 10- to 50-nm aerosol particles in boreal forest with laser desorption-ionization aerosol mass spectrometer and comparison with other techniques
Abstract The aim of this study was to characterize the organic composition of ambient ultrafine particles (<50nm) in a boreal forest environment and compare the analytical results obtained by different techniques with use a data analysis software. In the chromatographic techniques, particles were collected on a filter and analyzed off-line after sample preparation, whereas in the aerosol MS, particle analysis was performed directly from the particle source. Many compounds and chemical groups were identified with a laser aerosol mass spectrometer (laser AMS) and selected organic compounds, including acids, polyols, amines and aldehydes, from 50nm filter samples were quantified. Interesting components found with the laser AMS included oxygenated and aliphatic hydrocarbons, aromatic compounds, amines, and black carbon. The amines found on laser AMS may be related to new particle formation events at particle sizes 10–25nm. Correlations between the results obtained with different instruments were clarified, and the best correlations were found between laser AMS and 50-nm size filter samples. There were no correlations between the laser AMS data and meteorological data or on-line measured gas phase compounds. The black carbon found on laser AMS had moderate correlation for levoglucosan found on all-sized filter samples. Finally, the correlation analysis revealed that the information obtained from sub-50-nm size range particles and results for particles several times higher could not be directly compared.
Highlights ► Oxygenated, aliphatic hydrocarbons, aromatic compounds, amines, black carbon were found. ► Amines found on laser AMS related to particle formation events. ► Best correlations were found between laser AMS and 50-nm size filter samples. ► Laser AMS data and the meteorological data did not correlate. ► Black carbon correlated moderately for levoglucosan found in all-sized filter samples.
Characterization of organic compounds in 10- to 50-nm aerosol particles in boreal forest with laser desorption-ionization aerosol mass spectrometer and comparison with other techniques
Laitinen, Totti (author) / Ehn, Mikael (author) / Junninen, Heikki (author) / Ruiz-Jimenez, José (author) / Parshintsev, Jevgeni (author) / Hartonen, Kari (author) / Riekkola, Marja-Liisa (author) / Worsnop, Douglas R. (author) / Kulmala, Markku (author)
Atmospheric Environment ; 45 ; 3711-3719
2011-04-10
9 pages
Article (Journal)
Electronic Resource
English
Organic Compounds in Aerosol Particles
| British Library Conference Proceedings | 1993