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奇数碳多环芳烃与偶数碳多环芳烃在 soot 光老化过程中的光化学行为差异及分析。

Distinct Photochemistry of Odd-Carbon PAHs from the Even-Carbon Ones During the Photoaging and Analysis of Soot.

机构信息

Key Laboratory of Photochemistry, CAS Research/Education Center for Excellence in Molecular Sciences, Institute of Chemistry, Chinese Academy of Sciences, Beijing 100190, PR China.

University of the Chinese Academy of Sciences, Beijing 100049, PR China.

出版信息

Environ Sci Technol. 2024 Jul 2;58(26):11578-11586. doi: 10.1021/acs.est.4c00764. Epub 2024 Jun 20.

DOI:10.1021/acs.est.4c00764
PMID:38899536
Abstract

Polycyclic aromatic hydrocarbons (PAHs) are the primary organic carbons in soot. In addition to PAHs with even carbon numbers (PAH), substantial odd-carbon PAHs (PAH) have been widely observed in soot and ambient particles. Analyzing and understanding the photoaging of these compounds are essential for assessing their environmental effects. Here, using laser desorption ionization mass spectrometry (LDI-MS), we reveal the substantially different photoreactivity of PAH from PAH in the aging process and their MS detection through their distinct behaviors in the presence and absence of elemental carbon (EC) in soot. During direct photooxidation of organic carbon (OC) alone, the PAH are oxidized more rapidly than the PAH. However, the degradation of PAH becomes preponderant over PAH in the presence of EC during photoaging of the whole soot. All of these observations are proposed to originate from the more rapid hydrogen abstraction reaction from PAH in the EC-photosensitized reaction, owing to its unique structure of a single -hybridized carbon site. Our findings reveal the photoreactivity and reaction mechanism of PAH for the first time, providing a comprehensive understanding of the oxidation of PAHs at a molecular level during soot aging and highlight the enhanced effect of EC on PAH ionization in LDI-MS analysis.

摘要

多环芳烃(PAHs)是烟尘中主要的有机碳。除了具有偶数碳数的 PAHs(PAH)外,大量的奇数碳 PAHs(PAH)也在烟尘和环境颗粒中广泛存在。分析和理解这些化合物的光老化对于评估它们的环境影响至关重要。在这里,我们使用激光解吸电离质谱(LDI-MS),通过在烟尘中存在和不存在元素碳(EC)的情况下,它们的不同行为,揭示了 PAH 在老化过程中与 PAH 的显著不同的光反应性及其通过 MS 的检测。在单独的有机碳(OC)直接光氧化过程中,PAH 的氧化速度比 PAH 快。然而,在整个烟尘的光老化过程中,当存在 EC 时,PAH 的降解变得比 PAH 更占优势。所有这些观察结果都被认为源于 EC 光敏化反应中 PAH 中更快的氢提取反应,这归因于其独特的单杂化碳位结构。我们的发现首次揭示了 PAH 的光反应性和反应机制,提供了对烟尘老化过程中 PAHs 氧化的分子水平的全面理解,并强调了 EC 对 LDI-MS 分析中 PAH 离子化的增强效应。

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