BrCH2O2 的大气降解途径：与 HO2 反应的机制的计算研究。

The atmospheric degradation pathways of BrCH2O2: computational calculation on mechanisms of the reaction with HO2.

机构信息

School of Environmental and Municipal Engineering, Qingdao Technological University, Fushun Road 11, Qingdao, Shandong 266033, PR China.

College of Chemistry and Environmental Engineering, Hubei Normal University, Cihu Road 11, Huangshi, Hubei 435002, PR China.

出版信息

Chemosphere. 2014 Sep;111:545-53. doi: 10.1016/j.chemosphere.2014.04.068. Epub 2014 May 27.

DOI:10.1016/j.chemosphere.2014.04.068

PMID:24997964

Abstract

Mechanisms for the atmospheric degradation reaction of BrCH2O2+HO2 were investigated using quantum chemistry methods. The result indicates that the dominant product is BrCH2OOH+O2((3)Σ). While CH2O+HBr+O3, BrCHO+OH+HO2 and CH2O+Br+HO3 will be competitive to a certain extent in the atmosphere. Meanwhile, the nascent product - BrCH2OOH reacts easily with OH radicals leading to BrCH2O2 again under the atmospheric conditions. Moreover, OH radicals could act as a catalyst in the net reaction of BrCH2OOH→BrCHO+H2O. Thus the proposed product BrCHO+H2O+O2 in the experiment might be generated from the subsequent reaction of BrCH2OOH with extra OH radicals. Comparisons indicate that halogen substitution effect makes minor contributions to the XCH2O2 (X=H, F, Cl and Br)+HO2 reactions in the atmosphere.

摘要

使用量子化学方法研究了 BrCH2O2+HO2 的大气降解反应机制。结果表明，主要产物为 BrCH2OOH+O2((3)Σ)。而在大气中，CH2O+HBr+O3、BrCHO+OH+HO2 和 CH2O+Br+HO3 也将在一定程度上具有竞争关系。同时，新生产物 - BrCH2OOH 很容易与 OH 自由基反应，在大气条件下再次生成 BrCH2O2。此外，OH 自由基可以在 BrCH2OOH→BrCHO+H2O 的净反应中充当催化剂。因此，实验中提出的产物 BrCHO+H2O+O2 可能是由 BrCH2OOH 与额外的 OH 自由基的后续反应生成的。比较表明，卤素取代效应对 XCH2O2（X=H、F、Cl 和 Br）+HO2 反应在大气中的贡献较小。

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BrCH2O2 的大气降解途径：与 HO2 反应的机制的计算研究。

The atmospheric degradation pathways of BrCH2O2: computational calculation on mechanisms of the reaction with HO2.

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