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高水平直接动力学变分过渡态理论计算包括热速率常数的多维隧穿、分支比以及原子氢对甲醇的氢提取反应的动力学同位素效应。

High-level direct-dynamics variational transition state theory calculations including multidimensional tunneling of the thermal rate constants, branching ratios, and kinetic isotope effects of the hydrogen abstraction reactions from methanol by atomic hydrogen.

机构信息

Department of Physical Chemistry, University of Santiago de Compostela, 15706 Santiago de Compostela, Spain.

出版信息

J Chem Phys. 2011 Mar 7;134(9):094302. doi: 10.1063/1.3555763.

DOI:10.1063/1.3555763
PMID:21384964
Abstract

We report a detailed theoretical study of the hydrogen abstraction reaction from methanol by atomic hydrogen. The study includes the analysis of thermal rate constants, branching ratios, and kinetic isotope effects. Specifically, we have performed high-level computations at the MC3BB level together with direct dynamics calculations by canonical variational transition state theory (CVT) with the microcanonically optimized multidimensional tunneling (μOMT) transmission coefficient (CVT/μOMT) to study both the CH(3)OH+H→CH(2)OH+H(2) (R1) reaction and the CH(3)OH+H→CH(3)O+H(2) (R2) reaction. The CVT/μOMT calculations show that reaction R1 dominates in the whole range 298≤T (K)≤2500 and that anharmonic effects on the torsional mode about the C-O bond are important, mainly at high temperatures. The activation energy for the total reaction sum of R1 and R2 reactions changes substantially with temperature and, therefore, the use of straight-line Arrhenius plots is not valid. We recommend the use of new expressions for the total R1 + R2 reaction and for the R1 and R2 individual reactions.

摘要

我们报告了一个详细的理论研究,即原子氢从甲醇中提取氢的反应。该研究包括分析热速率常数、分支比和动力学同位素效应。具体来说,我们在 MC3BB 水平上进行了高精度计算,并通过正则变分过渡态理论 (CVT) 与微正则优化多维隧道 (μOMT) 传输系数 (CVT/μOMT) 进行直接动力学计算,研究了 CH(3)OH+H→CH(2)OH+H(2) (R1) 反应和 CH(3)OH+H→CH(3)O+H(2) (R2) 反应。CVT/μOMT 计算表明,在整个 298≤T (K)≤2500 范围内,反应 R1 占主导地位,并且关于 C-O 键的扭转模式的非谐效应很重要,主要在高温下。R1 和 R2 反应的总反应和的活化能随温度有很大变化,因此,直线 Arrhenius 图的使用是无效的。我们建议对总 R1 + R2 反应以及 R1 和 R2 单独反应使用新的表达式。

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