Reactions with Criegee intermediates are the dominant gas-phase sink for formyl fluoride in the atmosphere

IF 6.2 3区 综合性期刊 Q1 Multidisciplinary Fundamental Research Pub Date : 2024-09-01 DOI:10.1016/j.fmre.2023.02.012
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Abstract

Atmospheric oxidation processes are of central importance in atmospheric climate models. It is often considered that volatile organic molecules are mainly removed by hydroxyl radical; however, the kinetics of some reactions of hydroxyl radical with volatile organic molecules are slow. Here we report rate constants for rapid reactions of formyl fluoride with Criegee intermediates. These rate constants are calculated by dual-level multistructural canonical variational transition state theory with small-curvature tunneling (DL-MS-CVT/SCT). The treatment contains beyond-CCSD(T) electronic structure calculations for transition state theory, and it employs validated density functional input for multistructural canonical variational transition state theory with small-curvature tunneling and for variable-reaction-coordinate variational transition state theory. We find that the M11-L density functional has higher accuracy than CCSD(T)/CBS for the HC(O)F + CH2OO and HC(O)F + anti-CH3CHOO reactions. We find significant negative temperature dependence in the ratios of the rate constants for HC(O)F + CH2OO/anti-CH3CHOO to the rate constant for HC(O)F + OH. We also find that different Criegee intermediates have different rate-determining-steps in their reactions with formyl fluoride, and we find that the dominant gas-phase removal mechanism for HC(O)F in the atmosphere is the reaction with CH2OO and/or anti-CH3CHOO Criegee intermediates.

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与克里格中间体的反应是大气中甲酰氟的主要气相汇
大气氧化过程在大气气候模型中至关重要。人们通常认为,挥发性有机分子主要由羟自由基清除;然而,羟自由基与挥发性有机分子的某些反应的动力学过程比较缓慢。在此,我们报告了甲酰氟与克里基中间体快速反应的速率常数。这些速率常数是通过具有小曲率隧道(DL-MS-CVT/SCT)的双水平多结构典范变异过渡态理论计算得出的。该处理方法包含了过渡态理论的超越-CSD(T) 电子结构计算,并采用了经过验证的密度泛函输入,用于具有小曲率隧道的多结构典范变异过渡态理论和可变反应坐标变异过渡态理论。我们发现,对于 HC(O)F + CH2OO 和 HC(O)F + anti-CH3CHOO 反应,M11-L 密度函数比 CCSD(T)/CBS 具有更高的精度。我们发现,HC(O)F + CH2OO/anti-CH3CHOO 的速率常数与 HC(O)F + OH 的速率常数之比存在明显的负温度依赖性。我们还发现,不同的 Criegee 中间体在与甲酰氟的反应中具有不同的速率决定步骤,并发现大气中 HC(O)F 的主要气相去除机制是与 CH2OO 和/或反CH3CHOO Criegee 中间体的反应。
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来源期刊
Fundamental Research
Fundamental Research Multidisciplinary-Multidisciplinary
CiteScore
4.00
自引率
1.60%
发文量
294
审稿时长
79 days
期刊介绍:
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