https://scholars.lib.ntu.edu.tw/handle/123456789/406277
標題: | Quantification of SO2 Oxidation on Interfacial Surfaces of Acidic Micro-Droplets: Implication for Ambient Sulfate Formation | 作者: | Hung, H.-M. Hsu, M.-N. Hoffmann, M.R. |
公開日期: | 2018 | 卷: | 52 | 期: | 16 | 起(迄)頁: | 9079-9086 | 來源出版物: | Environmental Science and Technology | 摘要: | Sulfate formation on the surface of aqueous microdroplets was investigated using a spray-chamber reactor coupled to an electrospray ionization mass spectrometer that was calibrated using Na2SO4(aq) as a function of pH. The observed formation of SO3 -•, SO4 -•, and HSO4 - at pH < 3.5 without the addition of other oxidants indicates that an efficient oxidation pathway takes place involving direct interfacial electron transfer from SO2 to O2 on the surface of aqueous microdroplets. Compared to the well-studied sulfate formation kinetics via oxidation by H2O2(aq), the interfacial SO4 2- formation rate on the surface of microdroplets was estimated to be proportional to the collision frequency of SO2 with a pH-dependent efficiency factor of 5.6 × 10-5[H+]3.7/([H+]3.7+10-13.5). The rate via the acidic surface reactions is approximately 1-2 orders of magnitude higher than that by H2O2(aq) for a 1.0 ppbv concentration of H2O2(g) interacting with 50 μg/m3 of aerosols. This finding highlights the relative importance of the interfacial SO2 oxidation in the atmosphere. Chemical reactions on the aquated aerosol surfaces are overlooked in most atmospheric chemistry models. This interfacial reaction pathway may help to explain the observed rapid conversion of SO2 to sulfate in mega-cities and nearby regions with high PM2.5 haze aerosol loadings. © 2018 American Chemical Society. |
URI: | https://www.scopus.com/inward/record.uri?eid=2-s2.0-85050749334&doi=10.1021%2facs.est.8b01391&partnerID=40&md5=f1aa8673b68fd199150333e711be95cc https://scholars.lib.ntu.edu.tw/handle/123456789/406277 |
DOI: | 10.1021/acs.est.8b01391 | SDG/關鍵字: | Aerosols; Atmospheric chemistry; Drops; Electrospray ionization; Oxidation; pH; Sodium sulfate; Sulfur compounds; Atmospheric chemistry model; Collision frequency; Efficiency factor; Efficient oxidations; Formation kinetics; Interfacial electron transfer; Interfacial surface; Orders of magnitude; Surface reactions; microdroplet; nanoparticle; sodium sulfate; sulfate; sulfur dioxide; unclassified drug; hydrogen peroxide; sulfur oxide; aqueous solution; atmospheric chemistry; atmospheric modeling; calibration; chemical reaction; comparative study; droplet; electron; haze; megacity; oxidant; oxidation; particulate matter; quantitative analysis; reaction kinetics; sulfate; sulfur dioxide; urban pollution; acidity; aerosol; aqueous solution; Article; atmosphere; chemical reaction; comparative study; electron transport; electrospray mass spectrometry; environmental temperature; flow rate; limit of quantitation; oxidation; particulate matter; pH; surface property; city; Aerosols; Cities; Hydrogen Peroxide; Sulfates; Sulfur Oxides |
顯示於: | 大氣科學系 |
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