Dynamics of hydrogen adsorption on clean and alkali-metal covered Cu(110)

Faraday Discussions of The Chemical Society Pub Date : 1991-01-01 DOI:10.1039/DC9919100415

B. Hayden, C. Lamont

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引用次数: 8

Abstract

The activated dissociative adsorption of H2 and D2 on a clean Cu(110) and a Cu(110)-K(1 × 2) reconstructed surface has been studied using supersonic molecular beams. Enhanced sticking of H2 over D2 at any particular normal energy in the pure beam experiment on Cu(110) is interpreted as an indication of the importance of the vibrational coordinate in the dissociation dynamics. The relative contributions of vibrational and translational energy in accessing the barrier is separated in vibrationally hot, translationally cold seeded beams. Results for hydrogen are presented which indicate a translational onset for the first vibrationally excited state H2(v= 1) at 130 meV. This result is consistent with a theoretically predicted barrier to dissociation of ca. 700 meV which lies somewhat in the exit channel of a two-dimensional potential-energy surface (2D-PES). The effect of alkali-metal adsorption on the (1 × 2) reconstructed surface is shown to enhance hydrogen adsorption, increase the activation energy to desorption and reduce the activation energy to adsorption. This result is consistent with a reduction in the height of a late barrier caused by a deeper atomic potential in the ‘product’ region of the 2D-PES.

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清洁和碱金属覆盖Cu吸附氢的动力学(110)

利用超声速分子束研究了H2和D2在Cu(110)和Cu(110)-K(1 × 2)重构表面的活化解离吸附。在Cu(110)上的纯光束实验中，H2在任何特定法向能量下对D2的增强粘着被解释为振动坐标在解离动力学中的重要性的指示。在振动热、平动冷的种子梁中分离了进入势垒时振动和平动能的相对贡献。对氢的结果表明，在130 meV时，第一振动激发态H2(v= 1)发生平移。这一结果与理论预测的约700 meV的离解势垒一致，该势垒在某种程度上位于二维势能表面(2D-PES)的出口通道中。碱金属在(1 × 2)重构表面的吸附作用增强了对氢的吸附，提高了脱附活化能，降低了吸附活化能。这一结果与2D-PES“产物”区域中更深的原子势引起的后期势垒高度降低一致。

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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