在自由基挥发性基组中模拟的单萜和异戊二烯氧化产生的过氧自由基的相互作用。

Interactions of peroxy radicals from monoterpene and isoprene oxidation simulated in the radical volatility basis set.

作者信息

Schervish Meredith, Heinritzi Martin, Stolzenburg Dominik, Dada Lubna, Wang Mingyi, Ye Qing, Hofbauer Victoria, DeVivo Jenna, Bianchi Federico, Brilke Sophia, Duplissy Jonathan, El Haddad Imad, Finkenzeller Henning, He Xu-Cheng, Kvashnin Aleksander, Kim Changhyuk, Kirkby Jasper, Kulmala Markku, Lehtipalo Katrianne, Lopez Brandon, Makhmutov Vladimir, Mentler Bernhard, Molteni Ugo, Nie Wei, Petäjä Tuuka, Quéléver Lauriane, Volkamer Rainer, Wagner Andrea C, Winkler Paul, Yan Chao, Donahue Neil M

机构信息

Carnegie Mellon University, Department of Chemistry Pittsburgh PA USA

University of California, Irvine Department of Chemistry Irvine CA USA.

出版信息

Environ Sci Atmos. 2024 Jun 24;4(7):740-753. doi: 10.1039/d4ea00056k. eCollection 2024 Jul 11.

DOI:10.1039/d4ea00056k

PMID:39006766

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11238171/

Abstract

Isoprene affects new particle formation rates in environments and experiments also containing monoterpenes. For the most part, isoprene reduces particle formation rates, but the reason is debated. It is proposed that due to its fast reaction with OH, isoprene may compete with larger monoterpenes for oxidants. However, by forming a large amount of peroxy-radicals (RO), isoprene may also interfere with the formation of the nucleating species compared to a purely monoterpene system. We explore the RO cross reactions between monoterpene and isoprene oxidation products using the radical Volatility Basis Set (radical-VBS), a simplified reaction mechanism, comparing with observations from the CLOUD experiment at CERN. We find that isoprene interferes with covalently bound C dimers formed in the pure monoterpene system and consequently reduces the yields of the lowest volatility (Ultra Low Volatility Organic Carbon, ULVOC) VBS products. This in turn reduces nucleation rates, while having less of an effect on subsequent growth rates.

摘要

异戊二烯在同时含有单萜烯的环境和实验中会影响新粒子的形成速率。在大多数情况下，异戊二烯会降低粒子形成速率，但其原因存在争议。有人提出，由于异戊二烯与OH反应迅速，它可能会与较大的单萜烯争夺氧化剂。然而，与纯单萜烯体系相比，异戊二烯通过形成大量过氧自由基（RO），也可能干扰成核物种的形成。我们使用自由基挥发性基组（radical-VBS）这一简化反应机制，探索单萜烯和异戊二烯氧化产物之间的RO交叉反应，并与欧洲核子研究组织（CERN）的CLOUD实验的观测结果进行比较。我们发现，异戊二烯会干扰纯单萜烯体系中形成的共价键结合的C二聚体，从而降低最低挥发性（超低挥发性有机碳，ULVOC）VBS产物的产率。这反过来又降低了成核速率，而对后续的生长速率影响较小。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c423/11238171/22769189cdf4/d4ea00056k-f1.jpg

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在自由基挥发性基组中模拟的单萜和异戊二烯氧化产生的过氧自由基的相互作用。

Interactions of peroxy radicals from monoterpene and isoprene oxidation simulated in the radical volatility basis set.

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