Evaluating the potential secondary contribution of photosensitized chemistry to OH production in aqueous aerosols†

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
Emma A. Petersen-Sonn, Marcello Brigante, Laurent Deguillaume, Jean-Luc Jaffrezo, Sébastien Perrier and Christian George
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Abstract

This study explores the potential contribution of secondary production of OH radicals in aerosols and cloud/fog conditions arising from brown carbon (BrC) triplet state chemistry. For this purpose, extracts of brown carbon from atmospheric aerosols from Grenoble, France, were analyzed for their ability to produce triplet states from the degradation of a common triplet state probe, 2,4,6-trimethylphenol (TMP). This ability of brown carbon to produce triplet states was compared to that of three photosensitizers, where it was found that vanillin (VL) showed a similar rate of degradation of the probe and was hence chosen as an alternative to BrC in aqueous aerosols to investigate OH formation from triplet states. The rates of OH formation from the triplet states were compared to those from nitrate anions (NO3) and hydrogen peroxide (H2O2), which are well-known sources of OH radicals in the aqueous phase, and a species that is structurally similar to VL, 4-hydroxybenzaldehyde (4HB). VL and 4HB both showed a 1–2 orders of magnitude higher rate of secondary OH formation than NO3, while it was similar or one order of magnitude smaller than H2O2. To evaluate the influence of the different OH radical sources in aqueous aerosols and cloud/fog conditions, the concentrations of the species were summarized from the literature. Considering the concentrations of HULISs in aerosols, the rates of secondary OH formation from BrC triplet states could potentially represent a significant source of OH in the atmospheric aqueous phase under some circumstances. This study shows the relevance of further investigations into the role of triplet states in impacting atmospheric oxidative capacity and studying other effects of triplet states in aerosols, a field that is, until now, still not fully understood.

Abstract Image

评估光敏化学对水溶气溶胶中 OH 生成的潜在二次贡献†。
本研究探讨了褐碳(BrC)三重态化学在气溶胶和云/雾条件下产生二次羟自由基的潜在贡献。为此,研究人员对法国格勒诺布尔大气气溶胶中的褐碳提取物进行了分析,以确定它们通过降解常见的三重态探针--2,4,6-三甲基苯酚(TMP)而产生三重态的能力。将褐碳产生三重态的能力与三种光敏剂的能力进行了比较,发现香兰素(VL)对探针的降解速率与之相似,因此被选为水溶气溶胶中研究三重态羟基形成的 BrC 替代品。我们将三重态羟基的形成速率与硝酸阴离子(NO3-)和过氧化氢(H2O2)以及一种与 VL 结构相似的物质--4-羟基苯甲醛(4HB)的形成速率进行了比较,硝酸阴离子(NO3-)和过氧化氢(H2O2)是水相中众所周知的羟基自由基来源。与 NO3- 相比,VL 和 4HB 的二次 OH 形成率都高出 1-2 个数量级,而与 H2O2 相比则相近或低一个数量级。为了评估水气溶胶和云/雾条件下不同 OH 自由基源的影响,我们总结了文献中的物种浓度。考虑到气溶胶中 HULISs 的浓度,在某些情况下,BrC 三重态形成二次 OH 的速率有可能成为大气水相中 OH 的重要来源。这项研究表明,有必要进一步调查三重态在影响大气氧化能力方面的作用,并研究气溶胶中三重态的其他影响,到目前为止,人们对这一领域的了解还不够充分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.90
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0.00%
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