乙醇酸
气相
分子内力
化学
反应机理
质子
分子动力学
光化学
酸性气体
激进的
微粒
硫酸盐
有机化学
计算化学
无机化学
催化作用
生物
乳酸
遗传学
细菌
量子力学
物理
作者
Lei Li,Qingzhu Zhang,Yuanyuan Wei,Qiao Wang,Wenxing Wang
摘要
Criegee intermediates (CIs) are important zwitterionic oxidants in the atmosphere, which affect the budget of OH radicals, amines, alcohols, organic/inorganic acids, etc. In this study, quantum chemical calculation and Born–Oppenheimer molecular dynamic (BOMD) simulation were performed to show the reaction mechanisms of C2 CIs with glycolic acid sulfate (GAS) at the gas-phase and gas–liquid interface, respectively. The results indicate that CIs can react with COOH and OSO3H groups of GAS and generate hydroperoxide products. Intramolecular proton transfer reactions occurred in the simulations. Moreover, GAS acts as a proton donor and participates in the hydration of CIs, during which the intramolecular proton transfer also occurs. As GAS widely exists in atmospheric particulate matter, the reaction with GAS is one of the sink pathways of CIs in areas polluted by particulate matter.
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