通过量子态和撞击位置解析 Pt(211)台阶和梯面上的甲烷分解

Methane dissociation on the steps and terraces of Pt(211) resolved by quantum state and impact site.

机构信息

Laboratoire de Chimie Physique Moléculaire, Ecole Polytechnique Fédérale de Lausanne, 1015 Lausanne, Switzerland.

Department of Chemistry, University of Massachusetts, Amherst, Massachusetts 01003, USA.

出版信息

J Chem Phys. 2018 Jan 7;148(1):014701. doi: 10.1063/1.5008567.

DOI:10.1063/1.5008567

PMID:29306302

Abstract

Methane dissociation on the step and terrace sites of a Pt(211) single crystal was studied by reflection absorption infrared spectroscopy (RAIRS) at a surface temperature of 120 K. The C-H stretch RAIRS signal of the chemisorbed methyl product species was used to distinguish between adsorption on step and terrace sites allowing methyl uptake to be monitored as a function of incident kinetic energy for both sites. Our results indicate a direct dissociation mechanism on both sites with higher reactivity on steps than on terraces consistent with a difference in an activation barrier height of at least 30 kJ/mol. State-specific preparation of incident CH with one quantum of antisymmetric (ν) stretch vibration further increases the CH reactivity enabling comparison between translational and vibrational activation on both steps and terraces. The reaction is modeled with first principles quantum theory that accurately describes dissociative chemisorption at different sites on the surface.

摘要

在 120 K 的表面温度下，通过反射吸收红外光谱（RAIRS）研究了 Pt(211)单晶上台阶和平台位点的甲烷离解。化学吸附甲基产物物种的 C-H 伸缩 RAIRS 信号用于区分吸附在台阶和平台上的位置，从而可以监测两种位置的入射动能函数的甲基吸收。我们的结果表明，两种位置都存在直接的离解机制，台阶上的反应性高于平台，这与活化势垒高度至少相差 30 kJ/mol 一致。具有一个反称（ν）伸缩振动量子的入射 CH 的态特异性制备进一步增加了 CH 的反应性，从而能够在台阶和平台上比较平移和振动活化。该反应通过第一性原理量子理论进行建模，该理论准确地描述了表面不同位置的离解化学吸附。

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通过量子态和撞击位置解析 Pt(211)台阶和梯面上的甲烷分解

Methane dissociation on the steps and terraces of Pt(211) resolved by quantum state and impact site.

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