Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Fast oxidation of sulfur dioxide by hydrogen peroxide in deliquesced aerosol particles.

Literature DB >> 31900361

Fast oxidation of sulfur dioxide by hydrogen peroxide in deliquesced aerosol particles.

Tengyu Liu¹, Simon L Clegg², Jonathan P D Abbatt¹.

Abstract

Atmospheric sulfate aerosols have important impacts on air quality, climate, and human and ecosystem health. However, current air-quality models generally underestimate the rate of conversion of sulfur dioxide (SO2) to sulfate during severe haze pollution events, indicating that our understanding of sulfate formation chemistry is incomplete. This may arise because the air-quality models rely upon kinetics studies of SO2 oxidation conducted in dilute aqueous solutions, and not at the high solute strengths of atmospheric aerosol particles. Here, we utilize an aerosol flow reactor to perform direct investigation on the kinetics of aqueous oxidation of dissolved SO2 by hydrogen peroxide (H2O2) using pH-buffered, submicrometer, deliquesced aerosol particles at relative humidity of 73 to 90%. We find that the high solute strength of the aerosol particles significantly enhances the sulfate formation rate for the H2O2 oxidation pathway compared to the dilute solution. By taking these effects into account, our results indicate that the oxidation of SO2 by H2O2 in the liquid water present in atmospheric aerosol particles can contribute to the missing sulfate source during severe haze episodes.

Entities: Chemical Species

Keywords: Chinese haze; aerosol kinetics; air pollution; multiphase chemistry; sulfate aerosol

Year: 2020 PMID： 31900361 PMCID： PMC6983387 DOI： 10.1073/pnas.1916401117

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

18 in total

Review 1. Ecological effects of particulate matter.

Authors: D A Grantz; J H B Garner; D W Johnson
Journal: Environ Int Date: 2003-06 Impact factor: 9.621

2. Oxidation of Gas-Phase SO2 on the Surfaces of Acidic Microdroplets: Implications for Sulfate and Sulfate Radical Anion Formation in the Atmospheric Liquid Phase.

Authors: Hui-Ming Hung; Michael R Hoffmann
Journal: Environ Sci Technol Date: 2015-08-25 Impact factor: 9.028

3. Chemical and microphysical characterization of ambient aerosols with the aerodyne aerosol mass spectrometer.

Authors: M R Canagaratna; J T Jayne; J L Jimenez; J D Allan; M R Alfarra; Q Zhang; T B Onasch; F Drewnick; H Coe; A Middlebrook; A Delia; L R Williams; A M Trimborn; M J Northway; P F DeCarlo; C E Kolb; P Davidovits; D R Worsnop
Journal: Mass Spectrom Rev Date: 2007 Mar-Apr Impact factor: 10.946

4. Response of the Aerodyne Aerosol Mass Spectrometer to Inorganic Sulfates and Organosulfur Compounds: Applications in Field and Laboratory Measurements.

Authors: Yunle Chen; Lu Xu; Tim Humphry; Anusha P S Hettiyadura; Jurgita Ovadnevaite; Shan Huang; Laurent Poulain; Jason C Schroder; Pedro Campuzano-Jost; Jose L Jimenez; Hartmut Herrmann; Colin O'Dowd; Elizabeth A Stone; Nga Lee Ng
Journal: Environ Sci Technol Date: 2019-04-24 Impact factor: 9.028

5. Elucidating severe urban haze formation in China.

Authors: Song Guo; Min Hu; Misti L Zamora; Jianfei Peng; Dongjie Shang; Jing Zheng; Zhuofei Du; Zhijun Wu; Min Shao; Limin Zeng; Mario J Molina; Renyi Zhang
Journal: Proc Natl Acad Sci U S A Date: 2014-11-24 Impact factor: 11.205

6. The Essential Role for Laboratory Studies in Atmospheric Chemistry.

Authors: James B Burkholder; Jonathan P D Abbatt; Ian Barnes; James M Roberts; Megan L Melamed; Markus Ammann; Allan K Bertram; Christopher D Cappa; Annmarie G Carlton; Lucy J Carpenter; John N Crowley; Yael Dubowski; Christian George; Dwayne E Heard; Hartmut Herrmann; Frank N Keutsch; Jesse H Kroll; V Faye McNeill; Nga Lee Ng; Sergey A Nizkorodov; John J Orlando; Carl J Percival; Bénédicte Picquet-Varrault; Yinon Rudich; Paul W Seakins; Jason D Surratt; Hiroshi Tanimoto; Joel A Thornton; Zhu Tong; Geoffrey S Tyndall; Andreas Wahner; Charles J Weschler; Kevin R Wilson; Paul J Ziemann
Journal: Environ Sci Technol Date: 2017-02-17 Impact factor: 9.028

7. Organic Peroxides and Sulfur Dioxide in Aerosol: Source of Particulate Sulfate.

Authors: Shunyao Wang; Shouming Zhou; Ye Tao; William G Tsui; Jianhuai Ye; Jian Zhen Yu; Jennifer G Murphy; V Faye McNeill; Jonathan P D Abbatt; Arthur W H Chan
Journal: Environ Sci Technol Date: 2019-09-03 Impact factor: 9.028

8. Sulfate Formation Enhanced by a Cocktail of High NOx, SO2, Particulate Matter, and Droplet pH during Haze-Fog Events in Megacities in China: An Observation-Based Modeling Investigation.

Authors: Jian Xue; Zibing Yuan; Stephen M Griffith; Xin Yu; Alexis K H Lau; Jian Zhen Yu
Journal: Environ Sci Technol Date: 2016-07-01 Impact factor: 9.028

9. Enhanced role of transition metal ion catalysis during in-cloud oxidation of SO2.

Authors: Eliza Harris; Bärbel Sinha; Dominik van Pinxteren; Andreas Tilgner; Khanneh Wadinga Fomba; Johannes Schneider; Anja Roth; Thomas Gnauk; Benjamin Fahlbusch; Stephan Mertes; Taehyoung Lee; Jeffrey Collett; Stephen Foley; Stephan Borrmann; Peter Hoppe; Hartmut Herrmann
Journal: Science Date: 2013-05-10 Impact factor: 47.728

10. Reactive nitrogen chemistry in aerosol water as a source of sulfate during haze events in China.

Authors: Yafang Cheng; Guangjie Zheng; Chao Wei; Qing Mu; Bo Zheng; Zhibin Wang; Meng Gao; Qiang Zhang; Kebin He; Gregory Carmichael; Ulrich Pöschl; Hang Su
Journal: Sci Adv Date: 2016-12-21 Impact factor: 14.136

12 in total

1. Oxidation of sulfur dioxide by nitrogen dioxide accelerated at the interface of deliquesced aerosol particles.

Authors: Tengyu Liu; Jonathan P D Abbatt
Journal: Nat Chem Date: 2021-09-30 Impact factor: 24.427

2. Acidity and the multiphase chemistry of atmospheric aqueous particles and clouds.

Authors: Andreas Tilgner; Thomas Schaefer; Becky Alexander; Mary Barth; Jeffrey L Collett; Kathleen M Fahey; Athanasios Nenes; Havala O T Pye; Hartmut Herrmann; V Faye McNeill
Journal: Atmos Chem Phys Date: 2021-09-10 Impact factor: 7.197

3. Haze Occurrence Caused by High Gas-to-Particle Conversion in Moisture Air under Low Pollutant Emission in a Megacity of China.

Authors: Qingxia Ma; Weisi Wang; Dexin Liu; Rongke Zhao; Jingqi Zhao; Wanlong Li; Yanfang Pan; Daizhou Zhang
Journal: Int J Environ Res Public Health Date: 2022-05-25 Impact factor: 4.614

4. Contribution of Particulate Nitrate Photolysis to Heterogeneous Sulfate Formation for Winter Haze in China.

Authors: Haotian Zheng; Shaojie Song; Golam Sarwar; Masao Gen; Shuxiao Wang; Dian Ding; Xing Chang; Shuping Zhang; Jia Xing; Yele Sun; Dongsheng Ji; Chak K Chan; Jian Gao; Michael B McElroy
Journal: Environ Sci Technol Lett Date: 2020-09-08

5. Fast sulfate formation from oxidation of SO₂ by NO₂ and HONO observed in Beijing haze.

Authors: Junfeng Wang; Jingyi Li; Jianhuai Ye; Jian Zhao; Yangzhou Wu; Jianlin Hu; Dantong Liu; Dongyang Nie; Fuzhen Shen; Xiangpeng Huang; Dan Dan Huang; Dongsheng Ji; Xu Sun; Weiqi Xu; Jianping Guo; Shaojie Song; Yiming Qin; Pengfei Liu; Jay R Turner; Hyun Chul Lee; Sungwoo Hwang; Hong Liao; Scot T Martin; Qi Zhang; Mindong Chen; Yele Sun; Xinlei Ge; Daniel J Jacob
Journal: Nat Commun Date: 2020-06-05 Impact factor: 14.919

6. Sulfate formation is dominated by manganese-catalyzed oxidation of SO₂ on aerosol surfaces during haze events.

Authors: Weigang Wang; Mingyuan Liu; Tiantian Wang; Yu Song; Li Zhou; Junji Cao; Jingnan Hu; Guigang Tang; Zhe Chen; Zhijie Li; Zhenying Xu; Chao Peng; Chaofan Lian; Yan Chen; Yuepeng Pan; Yunhong Zhang; Yele Sun; Weijun Li; Tong Zhu; Hezhong Tian; Maofa Ge
Journal: Nat Commun Date: 2021-03-31 Impact factor: 14.919

10. Safe, accurate, and precise sulfur isotope analyses of arsenides, sulfarsenides, and arsenic and mercury sulfides by conversion to barium sulfate before EA/IRMS.

Authors: Jorge E Spangenberg; Nicolas J Saintilan; Sabina Strmić Palinkaš
Journal: Anal Bioanal Chem Date: 2022-01-23 Impact factor: 4.142