关于有机酸与空气中水界面处的SO反应的机理洞察。

Mechanistic Insight into the Reaction of Organic Acids with SO at the Air-Water Interface.

作者信息

Zhong Jie, Li Hao, Kumar Manoj, Liu Jiarong, Liu Ling, Zhang Xiuhui, Zeng Xiao Cheng, Francisco Joseph S

机构信息

Department of Chemistry, University of Nebraska-Lincoln, Lincoln, NE, 68588, USA.

Key Laboratory of Cluster Science, Ministy of Education of China, School of Chemistry, Beijing Inistitute of Technology, Beijing, 100081, China.

出版信息

Angew Chem Int Ed Engl. 2019 Jun 17;58(25):8351-8355. doi: 10.1002/anie.201900534. Epub 2019 May 8.

DOI:10.1002/anie.201900534

PMID:30980573

Abstract

The gas-phase reaction of organic acids with SO has been recognized as essential in promoting aerosol-particle formation. However, at the air-water interface, this reaction is much less understood. We performed systematic Born-Oppenheimer molecular dynamics (BOMD) simulations to study the reaction of various organic acids with SO on a water droplet. The results show that with the involvement of interfacial water molecules, organic acids can react with SO and form the ion pair of sulfuric-carboxylic anhydride and hydronium. This mechanism is in contrast to the gas-phase reaction mechanisms in which the organic acid either serves as a catalyst for the reaction between SO and H O or reacts with SO directly. The distinct reaction at the water surface has important atmospheric implications, for example, promoting water condensation, uptaking atmospheric condesation species, and incorporating "SO " into organic species in aerosol particles. Therefore, this reaction, typically occurring within a few picoseconds, provides another pathway towards aerosol formation.

摘要

有机酸与SO的气相反应已被认为是促进气溶胶颗粒形成的关键因素。然而，在气-水界面处，该反应的了解却少得多。我们进行了系统的玻恩-奥本海默分子动力学（BOMD）模拟，以研究各种有机酸与SO在水滴上的反应。结果表明，在界面水分子的参与下，有机酸可与SO反应，形成硫酸-羧酸酐和水合氢离子的离子对。该机制与气相反应机制不同，在气相反应机制中，有机酸要么作为SO与H₂O之间反应的催化剂，要么直接与SO反应。在水面发生的独特反应具有重要的大气意义，例如，促进水的凝结、吸收大气中的凝结物质以及将“SO₄²⁻”纳入气溶胶颗粒中的有机物种。因此，这种通常在几皮秒内发生的反应为气溶胶形成提供了另一条途径。

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关于有机酸与空气中水界面处的SO反应的机理洞察。

Mechanistic Insight into the Reaction of Organic Acids with SO at the Air-Water Interface.

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