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Single Droplet Tweezer Revealing the Reaction Mechanism of Mn(II)-Catalyzed SO<sub>2</sub> Oxidation

Xue Cao, Yuxin Liu, Qishen Huang, Zhe Chen, Jiuyi Sun, Jian Sun, Shufeng Pang, Pai Liu, Weigang Wang, Yunhong Zhang, Maofa Ge

2024Environmental Science & Technology12 citationsDOI

Abstract

Sulfate aerosol is one of the major components of secondary fine particulate matter in urban haze that has crucial impacts on the social economy and public health. Among the atmospheric sulfate sources, Mn(II)-catalyzed SO 2 oxidation on aerosol surfaces has been regarded as a dominating one. In this work, we measured the reaction kinetics of Mn(II)-catalyzed SO 2 oxidation in single droplets using an aerosol optical tweezer. We show that the SO 2 oxidation occurs at the Mn(II)-active sites on the aerosol surface, per a piecewise kinetic formulation, one that is characterized by a threshold surface Mn(II) concentration and gaseous SO 2 concentration. When the surface Mn(II) concentration is lower than the threshold value, the reaction rate is first order with respect to both Mn(II) and SO 2, agreeing with our traditional knowledge. But when surface Mn(II) concentration is above the threshold, the reaction rate becomes independent of Mn(II) concentration, and the reaction order with respect to SO 2 becomes greater than unity. The measured reaction rate can serve as a tool to estimate sulfate formation based on field observation, and our established parametrization corrects these calculations. This framework for reaction kinetics and parametrization holds promising potential for generalization to various heterogeneous reaction pathways.

Topics & Concepts

CatalysisChemistryAerosolOrder of reactionSulfateParametrization (atmospheric modeling)Reaction rateKineticsReaction mechanismRedoxInorganic chemistryPhotochemistryReaction rate constantPhysicsOrganic chemistryOpticsQuantum mechanicsRadiative transferAtmospheric chemistry and aerosolsCatalytic Processes in Materials ScienceAir Quality Monitoring and Forecasting
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