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Increasing Contribution of Chlorine Chemistry to Wintertime Ozone Formation Promoted by Enhanced Nitrogen Chemistry

Gaojie Chen, Lingling Xu, Shaocai Yu, Likun Xue, Ziyi Lin, Chen Yang, Xiaoting Ji, Xiaolong Fan, Yee Jun Tham, Haichao Wang, Youwei Hong, Mengren Li, John H. Seinfeld, Jinsheng Chen

2024Environmental Science & Technology23 citationsDOI

Abstract

Chlorine (Cl) radicals strongly affect atmospheric oxidation and the fate of pollutants. Despite several observations, the potential impacts of nitrogen chemistry associated with NO 2 on Cl chemistry are poorly understood. Here, we provided direct field evidence that the nitrogen chemistry enhancements triggered by the increased NO 2 drove daytime nitrate (NO 3 – ) photolysis and nighttime NO 3 –N 2 O 5 reactions, significantly promoting the increases in the concentrations of ClNO 2 and Cl 2 after the Chinese Spring Festival. The enhancement in the Cl chemistry facilitated the elevations of both O 3 and atmospheric oxidation capacity during the winter daytime. Our findings highlighted the importance of nitrogen chemistry induced by the increased NO 2 in enhanced Cl chemistry.

Topics & Concepts

ChemistryOzoneChlorineEnvironmental chemistryAtmospheric chemistryNitrogenNitrogen oxidesOrganic chemistryWaste managementEngineeringAtmospheric chemistry and aerosolsAtmospheric Ozone and ClimateCatalytic Processes in Materials Science