Mixing state and influence factors controlling diurnal variation of particulate nitrophenol compounds at a suburban area in northern China

Nitrophenols have received extensive attention due to their strong light-absorbing ability in the near-ultraviolet-visible region, which could be influenced by the atmospheric processes of nitrophenols. However, our knowledge and understanding of the formation and evolution of nitrophenols are still...

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Published in:Environmental pollution (1987) Vol. 344; p. 123368
Main Authors: Guo, Ziyong, Hu, Xiaodong, Sun, Wei, Peng, Xiaocong, Fu, Yuzhen, Liu, Kun, Liu, Fengxian, Meng, He, Zhu, Yujiao, Zhang, Guohua, Wang, Xinfeng, Xue, Likun, Wang, Jiancheng, Wang, Xinming, Peng, Ping'an, Bi, Xinhui
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-03-2024
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Summary:Nitrophenols have received extensive attention due to their strong light-absorbing ability in the near-ultraviolet-visible region, which could be influenced by the atmospheric processes of nitrophenols. However, our knowledge and understanding of the formation and evolution of nitrophenols are still in the nascent stages. In the present study, the mixing states of four mononitrophenol particles (i.e., nitrophenol, methynitrophenol, nitrocatechol, and methoxynitrophenol), and one nitropolycyclic aromatic hydrocarbon particles (i.e., nitronaphthol (NN)) were investigated using a single-particle aerosol mass spectrometer (SPAMS) in November 2019 in Qingdao, China. The results showed, for the first time, that mononitrophenols and NN exhibit different mixing states and diurnal variations. Four mononitrophenols were internally mixed well with each other, and with organic acids, nitrates, potassium, and naphthalene. The diurnal variation in the number fraction of mononitrophenols presented two peaks at 07:00 to 09:00 and 18:00 to 20:00, and a valley at noon. Atmospheric environmental conditions, including NO2, O3, relative humidity, and temperature, can significantly influence the diurnal variation of mononitrophenols. Multiple linear regression and random forest regression models revealed that the main factors controlling the diurnal variation of mononitrophenols were photochemical reactions during the day and aqueous-phase reactions during the night. Unlike mononitrophenols, about 62–83% of NN were internally mixed with [NH4]+ and [H(NO3)2]-, but not with organic acids and potassium. The diurnal variation of NN was also different from that of mononitrophenols, generally increased from 17:00 to 10:00 and then rapidly decreaed from 11:00 to 16:00. These results imply that NN may have sources and atmospheric processes that are different from mononitrophenols. We speculate that this is mostly controlled by photochemical reactions and mixing with [NH4]+, which may influence the diurnal variation of NN in the ambient particles; however, this requires further confirmation. These findings extend our current understanding of the atmospheric formation and evolution of nitrophenols. [Display omitted] •Five nitrophenols were analyzed by a single-particle aerosol mass spectrometer.•Mononitrophenols and nitronaphthol have different mixing state and diurnal variation.•Photochemistry and aqueous-phase reactions control the diurnal variation of mononitrophenols.•[NH4]+ can significantly influence the diurnal variation of nitronaphthol.
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ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2024.123368