直接动力学测量 CH₂I 与 O₂反应生成的 Criegee 中间体 (CH₂OO)。

Direct kinetic measurements of Criegee intermediate (CH₂OO) formed by reaction of CH₂I with O₂.

机构信息

Combustion Research Facility, Mail Stop 9055, Sandia National Laboratories, Livermore, CA 94551-0969, USA.

出版信息

Science. 2012 Jan 13;335(6065):204-7. doi: 10.1126/science.1213229.

Abstract

Ozonolysis is a major tropospheric removal mechanism for unsaturated hydrocarbons and proceeds via "Criegee intermediates"--carbonyl oxides--that play a key role in tropospheric oxidation models. However, until recently no gas-phase Criegee intermediate had been observed, and indirect determinations of their reaction kinetics gave derived rate coefficients spanning orders of magnitude. Here, we report direct photoionization mass spectrometric detection of formaldehyde oxide (CH(2)OO) as a product of the reaction of CH(2)I with O(2). This reaction enabled direct laboratory determinations of CH(2)OO kinetics. Upper limits were extracted for reaction rate coefficients with NO and H(2)O. The CH(2)OO reactions with SO(2) and NO(2) proved unexpectedly rapid and imply a substantially greater role of carbonyl oxides in models of tropospheric sulfate and nitrate chemistry than previously assumed.

摘要

臭氧分解是不饱和烃在对流层中的主要去除机制，通过“克里格中间体”（羰基氧化物）进行，它们在对流层氧化模型中起着关键作用。然而，直到最近，还没有观察到气相克里格中间体，并且对其反应动力学的间接测定给出了跨越数量级的衍生速率系数。在这里，我们报告了甲醛氧化物（CH(2)OO）的直接光离子化质谱检测，作为 CH(2)I 与 O(2)反应的产物。该反应使直接实验室测定 CH(2)OO 动力学成为可能。提取了与 NO 和 H(2)O 的反应速率系数的上限。SO(2)和 NO(2)与 CH(2)OO 的反应速度出乎意料地快，这意味着羰基氧化物在对流层硫酸盐和硝酸盐化学模型中的作用比以前假设的要大得多。

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直接动力学测量 CH₂I 与 O₂反应生成的 Criegee 中间体 (CH₂OO)。

Direct kinetic measurements of Criegee intermediate (CH₂OO) formed by reaction of CH₂I with O₂.

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