EOAS Seminar by Earth, Ocean and Atmospheric Sciences (EOAS) Thrust, Function Hub, HKUST (GZ) - Sulfate Formation via Photosensitized Oxidation by Incense Burning Particles

2:00pm - 3:30pm
W2-201 (ZOOM ID: 965 8999 2328 Passcode: 20240731)

Incense burning, a common ritual in Asian cultures, especially in coastal cities, emits significant particles in temples and households. Particulate aromatic carbonyls, key components of incense burning aerosols, contain photosensitizers that can produce oxidants for in-particle oxidation such as sulfate formation from SO2. Using single particle aerosol mass spectrometry (SPAMS), we observed that sulfate formation in incense burning particles does not solely depend on traditional gas-phase reactions. Instead, it is significantly influenced by photosensitization, which is dependent on various environmental conditions such as relative humidity and UV light exposure. Furthermore, internally mixed incense burning and sea-salt particles are often found in coastal regions. We observed enhanced sulfate production in laboratory-generated droplets containing incense smoke (IS) extracts and sodium chloride (IS−NaCl) over pure NaCl droplets under irradiation, attributable to photosensitization induced by IS constituents. Photosensitizers like vanillin (VL) and syringaldehyde (SyrAld) found in IS samples can markedly accelerate SO2 oxidation. Moreover, the excited triplet state of the photosensitizer might interact with chloride ions to generate reactive chlorine species. Such synergistic effects between chlorine chemistry and photosensitization could further enhance sulfate formation. Additionally, the aging of IS particles further promoted sulfate production. This is likely due to increased secondary oxidant production driven by a higher proportion of nitrogen-containing species relative to fresh IS particles. Our studies highlight the substantial impact of photosensitized oxidation processes in sulfate production, particularly in areas impacted by incense burning, offering new insights into atmospheric sulfate formation mechanisms. The similarity between incense burning and biomass burning particle mass spectra suggests that biomass burning may also trigger sulfate formation. Using sulfate formation as a tool, we demonstrate that photosensitization of incense burning aerosol can enhance the atmospheric oxidative capacity and promote secondary aerosol formation. 

講者/ 表演者:
Prof. Chak Chan
King Abdullah University of Science and Technology (KAUST)

Prof. Chak Chan is currently Dean of the Division of Physical Science and Engineering at the King Abdullah University of Science and Technology (KAUST). Before that, he was at the City University of Hong Kong in 2015 - 2023 and the Hong Kong University of Science and Technology in 1992-2015. He has worked on primary emissions and the formation of secondary organic aerosols of cooking, traffic, biomass burning, and ship emissions, reactive uptake of organics, and multiphase reactions in the formation of secondary aerosols. His current research includes atmospheric aging of particulate pollutants due to photochemistry of particulate nitrate photolysis and photosensitization reactions.

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英文
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Function Hub, HKUST(GZ)
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For enquiries, please contact Miss Phoenix Li (phoenixwfl@hkust-gz.edu.cn).

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