First Direct Observation of Equilibrium Involving Cl Atoms: Cl + C2H4 ⇔ ClCH2CH2 by VUV Monitoring

IF 2.8 2区化学 Q3 CHEMISTRY, PHYSICAL

The Journal of Physical Chemistry A Pub Date : 2025-10-08 DOI:10.1021/acs.jpca.5c05430

Mark A. Blitz*, , , Thomas Henry Speak, , and , Paul W. Seakins,

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Abstract

The kinetics between Cl and ethylene, R1, have been determined between 298 and 822 K in time-resolved experiments, where the Cl atoms were monitored for the first time via laser-induced fluorescence at 118.877 nm. A key advantage of this method of Cl detection is that there is limited absorption of 118 nm radiation by oxygen, and we report the first Cl reactivity measurements. The kinetics of Cl + C₂H₄ at room temperature are simple association, k_1a([M]), and have been used in a master equation analysis (via the MESMER application) to show consistency with most of the literature. Between 393 and 490 K, the kinetics exhibited equilibrium behavior: Cl + C₂H₄ ⇔ Cl–C₂H₄ (k_1a([M]),k_–1a([M])). These forward and reverse rate coefficients have been used in van’t Hoff and reaction rate theory (MESMER) analysis to determine the enthalpy of reaction, Δ_rH_R1a^o. This analysis yields a Δ_rH_0,R1a^o equal to −74.1 ± 0.6 kJ mol^–1. Ab initio structure calculations provided input values for MESMER analysis of the equilibrium data. The range of ab initio calculations carried out returned consistent values for Δ_rH_0,R1a^o, but the values are consistently more exothermic than the experimental value. Via comparison between theory and experiment, it is estimated that these ab initio calculations are good to ∼4 kJ mol^–1. Above 500 K, the removal kinetics are dominated by abstraction: Cl + C₂H₄ → HCl + C₂H₃ (k_1b). This reaction occurs on an endothermic potential surface, where the energy of the transition state is below that of the products. Analysis of this kinetic data and the literature highlights that the location of the transition state along the reaction coordinate varies with temperature, becoming more reagent-like with increased temperature.

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首次直接观察Cl原子的平衡：Cl + C2H4⇔ClCH2CH2

在时间分辨实验中测定了Cl与乙烯R1在298 ~ 822 K之间的动力学，其中Cl原子首次通过激光诱导荧光在118.877 nm处进行了监测。该方法的一个关键优点是氧对118 nm辐射的吸收有限，我们报道了第一个Cl反应性测量。室温下Cl + C2H4的动力学为简单关联，k1a([M])，并已用于主方程分析（通过MESMER应用程序），以显示与大多数文献的一致性。在393和490 K之间，动力学表现出平衡行为：Cl + C2H4⇔Cl-C2H4 (k1a（[M]), K -1a([M])）。这些正向和反向速率系数已用于范霍夫和反应速率理论（MESMER）分析，以确定反应的焓，ΔrHR1ao。这个分析得到ΔrH0，R1ao等于-74.1±0.6 kJ mol-1。从头算结构计算为平衡数据的MESMER分析提供了输入值。对ΔrH0、R1ao进行了从头计算，得到了一致的值，但这些值始终比实验值更放热。通过理论和实验的比较，估计这些从头计算的结果可以达到~ 4 kJ mol-1。在500 K以上，脱除动力学以Cl + C2H4→HCl + C2H3 （k1b）为主。这个反应发生在吸热势表面上，其中过渡态的能量低于生成物的能量。对这些动力学数据和文献的分析表明，过渡态在反应坐标上的位置随着温度的变化而变化，随着温度的升高，过渡态变得更像试剂。

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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来源期刊

The Journal of Physical Chemistry A 化学-物理：原子、分子和化学物理

CiteScore

5.20

自引率

10.30%

发文量

922

审稿时长

1.3 months

期刊介绍： The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.