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ACS Earth Space Chem


Title:Highly Acidic Conditions Drastically Alter the Chemical Composition and Absorption Coefficient of alpha-Pinene Secondary Organic Aerosol
Author(s):Wong C; Liu S; Nizkorodov SA;
Address:"Department of Chemistry, University of California, Irvine, California 92697-2025, United States"
Journal Title:ACS Earth Space Chem
Year:2022
Volume:20221122
Issue:12
Page Number:2983 - 2994
DOI: 10.1021/acsearthspacechem.2c00249
ISSN/ISBN:2472-3452 (Print) 2472-3452 (Electronic)
Abstract:"Secondary organic aerosols (SOA), formed through the gas-phase oxidation of volatile organic compounds (VOCs), can reside in the atmosphere for many days. The formation of SOA takes place rapidly within hours after VOC emissions, but SOA can undergo much slower physical and chemical processes throughout their lifetime in the atmosphere. The acidity of atmospheric aerosols spans a wide range, with the most acidic particles having negative pH values, which can promote acid-catalyzed reactions. The goal of this work is to elucidate poorly understood mechanisms and rates of acid-catalyzed aging of mixtures of representative SOA compounds. SOA were generated by the ozonolysis of alpha-pinene in a continuous flow reactor and then collected using a foil substrate. SOA samples were extracted and aged by exposure to varying concentrations of aqueous H(2)SO(4) for 1-2 days. Chemical analysis of fresh and aged samples was conducted using ultra-performance liquid chromatography coupled with photodiode array spectrophotomety and high-resolution mass spectrometry. In addition, UV-vis spectrophotometry and fluorescence spectrophotometry were used to examine the changes in optical properties before and after aging. We observed that SOA that aged in moderately acidic conditions (pH from 0 to 4) experienced small changes in composition, while SOA that aged in a highly acidic environment (pH from -1 to 0) experienced more dramatic changes in composition, including the formation of compounds containing sulfur. Additionally, at highly acidic conditions, light-absorbing and fluorescent compounds appeared, but their identities could not be ascertained due to their small relative abundance. This study shows that acidity is a major driver of SOA aging, resulting in a large change in the chemical composition and optical properties of aerosols in regions where high concentrations of H(2)SO(4) persist, such as upper troposphere and lower stratosphere"
Keywords:
Notes:"PubMed-not-MEDLINEWong, Cynthia Liu, Sijia Nizkorodov, Sergey A eng 2022/12/24 ACS Earth Space Chem. 2022 Dec 15; 6(12):2983-2994. doi: 10.1021/acsearthspacechem.2c00249. Epub 2022 Nov 22"

 
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