Deliquescence behavior of photo-irradiated single NaNO3 droplets

Nitrate-containing particles are ubiquitous in the troposphere because of their secondary production due to anthropogenic emissions of NOx from the combustion of fossil fuels. Nitrate ions are recognized as photoactive species that may contribute to the formation of oxidants in the atmosphere throug...

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Bibliographic Details
Published in:Atmospheric environment (1994) 2018-06, Vol.183, p.33-39
Main Authors: Seng, Samantha, Guo, Fangqin, Tobon, Yeny A., Ishikawa, Tomoki, Moreau, Myriam, Ishizaka, Shoji, Sobanska, Sophie
Format: Article
Language:English
Subjects:
Atmospheric aerosol
Hygroscopicity
Photochemistry
Raman spectroscopy
Single particle
Sodium nitrate
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Summary:Nitrate-containing particles are ubiquitous in the troposphere because of their secondary production due to anthropogenic emissions of NOx from the combustion of fossil fuels. Nitrate ions are recognized as photoactive species that may contribute to the formation of oxidants in the atmosphere through heterogeneous photochemical reactions. The chemical transformation of aerosol particles in the atmosphere often leads to modification of the particles’ hygroscopic properties. Although the photo-transformation of nitrate ions into nitrite within aerosol particles has been investigated, the influence of the photoproducts formation on the hygroscopic behavior of particles has not been reported. In this study, we examined the hygroscopic properties of single, ultraviolet-irradiated NaNO3 droplets using Raman microspectrometry. We are the first demonstrated that irradiating NaNO3 particles affects their hygroscopic behavior. For short-term exposures, regarding hygroscopic behavior, the irradiated particles exhibited two-stage transitions that were clearly reproduced in the experimental NaNO3-NaNO2 phase diagram. The production of NO2− decreased the deliquescence relative humidity values. For long irradiation times (>5 h), these values are even more affected by the additional production of peroxynitrite and carbonate ions in individual droplets. The NaNO3-NaNO2 deliquescence phase diagram cannot explain the hygroscopic behavior of long-term irradiated particles. Finally, we demonstrated the influence that CO2 has on the photo-transformation process in NaNO3 droplets. [Display omitted] •Hygroscopic behavior of irradiated NaNO3 single droplets is studied.•NaNO3-NaNO2 deliquescence phase diagram is determined for the first time.•For short irradiation time MDRH and DRH values agreed with the NaNO3-NaNO2 diagram.•Long time irradiated particles exhibited complex hygroscopic behavior.•In the atmosphere, higher uptake of water is expected for irradiated NaNO3 particles.
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2018.04.007