Direct atmospheric evidence for the irreversible formation of aqueous secondary organic aerosol

The reversible nature of aqueous secondary organic aerosol (aqSOA) formation was characterized for the first time through direct atmospheric measurements. Water‐soluble organic carbon in the gas and particle phases (WSOCg and WSOCp) was measured simultaneously to quantify aqSOA formation in Baltimor...

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Bibliographic Details
Published in:Geophysical research letters 2015-07, Vol.42 (13), p.5577-5586
Main Authors: El-Sayed, Marwa M. H., Wang, Yingqing, Hennigan, Christopher J.
Format: Article
Language:English
Subjects:
Aerosols
aqueous secondary organic aerosol (aqSOA)
Atmospheric aerosols
Atmospherics
Carbon
Channels
Drying
Evaporation
Formations
Humidity
Measurement
Night
Night-time
Nighttime
Organic carbon
partitioning
Phases
Relative humidity
Residence time
Secondary aerosols
Statistical analysis
Time measurement
water-soluble organic carbon
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Summary:The reversible nature of aqueous secondary organic aerosol (aqSOA) formation was characterized for the first time through direct atmospheric measurements. Water‐soluble organic carbon in the gas and particle phases (WSOCg and WSOCp) was measured simultaneously to quantify aqSOA formation in Baltimore, Maryland. During the nighttime, aqSOA formation was evident as WSOCg increasingly partitioned to the particle phase with increasing relative humidity (RH). To characterize the reversible/irreversible nature of this aqSOA, the WSOCp measurement was alternated through an unperturbed ambient channel and through a “dried” channel maintained at ~40% RH (with 7 s residence time) to mimic the natural drying particles undergo throughout the day. Across the entire RH range encountered, there was no statistically significant difference in WSOCp concentrations through the dry and ambient channels, indicating that the aqSOA remained in the condensed phase upon the evaporation of aerosol water. This strongly suggests that the observed aqSOA was formed irreversibly. Key Points WSOCg taken up into aerosol water does not volatilize upon water evaporation This demonstrates irreversible aqSOA formation in atmospheric aerosol water This has direct implications for interpreting prior laboratory studies of aqSOA
ISSN:0094-8276
1944-8007
DOI:10.1002/2015GL064556