Probing the transition state in dissociative adsorption

Faraday Discussions of The Chemical Society Pub Date : 1991-01-01 DOI:10.1039/DC9919100425

S. Holloway, X. Chang

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引用次数: 10

Abstract

We have performed calculations for H2 molecules being scattered from a metal surface. The emphasis of the work is aimed at understanding the role of rotational energy on the dissociative adsorption reaction. The time-dependent wavepacket formalism has been employed on a vibrationally adiabatic PES which explicitly contains two rotational degrees of freedom and one translational. The PES is activated (ca. 0.25–1.5 eV) and the value of the barrier depends strongly on the angle that the molecular bond axis makes with the surface. This PES enables a scattering event to be modelled which corresponds to a normally incident beam of hydrogen in the ground vibrational state and the J, mJ rotational state. We have found that the translational energy dependence of the dissociation probability of para- and normal hydrogen is approximately the same. This reflects the fact that the quantum of rotational energy is rather small in comparison to the activation barrier height. More interestingly it has been found that the form chosen for the PES gives rise to effective angular discrimination whereby molecules having only particular orientations will dissociate. This, in turn, gives rise to a characteristic rotational distribution which may be used to explore the symmetry of the dissociative transition state.

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解离吸附过渡态的探讨

我们对H2分子从金属表面散射进行了计算。本文的工作重点是了解旋转能在解离吸附反应中的作用。本文将时变波包的形式应用于振动绝热pe，该pe明确包含两个旋转自由度和平移自由度。PES被激活(约0.25-1.5 eV)，势垒的值很大程度上取决于分子键轴与表面的夹角。这种PES能够模拟一个散射事件，该事件对应于在地面振动状态和J, mJ旋转状态下的正常入射氢束。我们发现异位氢和正位氢的解离概率对平动能的依赖近似相同。这反映了转动能量子相对于激活势垒高度是相当小的事实。更有趣的是，已经发现为PES选择的形式会产生有效的角辨别，因此只有特定取向的分子才会解离。这反过来又产生了一个特征旋转分布，可以用来探索解离过渡态的对称性。

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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Faraday Discussions of The Chemical Society

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