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Atmospheric sulfate aerosol formation enhanced by interfacial anions

Gehui Wang, Si Zhang, Can Wu, Tong Zhu, Xinbei Xu, Shuangshuang Ge, Haitao Sun, Zhenrong Sun, Jiaxin Wang, Yuemeng Ji, Jian Gao, Yanqin Ren, Hong Li, Fang Zhang, Yuan Wang, John H. Seinfeld

2025PNAS Nexus31 citationsDOIOpen Access PDF

Abstract

Abstract Heterogeneous oxidation of SO2 by NO2 on aerosols has recently been found to be one of the major formation pathways of sulfate in the polluted troposphere, but the chemical mechanisms and kinetics remain uncertain. By combining lab experiments, theoretical chemistry calculations, and field measurements, here we show that the SO2 oxidation by NO2 is critically dependent on anions at the air–aerosol aqueous interface. The reaction rate of NO2 with HSO3− (1.1 × 108–1.6 × 109 M−1 s−1) is more than four orders of magnitude larger than the traditionally held value for the bulk phase due to the abundant occurrence of chloride, nitrate, and carboxylic anions at the air–aqueous interface, which remarkably accelerates sulfate formation during China haze periods by enhancing the uptake of NO2 through interfacial electrostatic attraction. Atmospheric models not accounting for this aerosol interfacial process likely produce major misrepresentations of tropospheric sulfate aerosols under polluted conditions.

Topics & Concepts

SulfateAerosolAqueous solutionTroposphereNitrateChemistryHazeChlorideAtmospheric chemistrySulfate aerosolEnvironmental chemistryAqueous two-phase systemInorganic chemistryAtmospheric sciencesOrganic chemistryOzoneGeologyAtmospheric chemistry and aerosolsAtmospheric Ozone and ClimateAtmospheric aerosols and clouds
Atmospheric sulfate aerosol formation enhanced by interfacial anions | Litcius