高温催化下非热前驱体介导的解离化学吸附

Nonthermalized Precursor-Mediated Dissociative Chemisorption at High Catalysis Temperatures.

作者信息

Moiraghi Raquel, Lozano Ariel, Peterson Eric, Utz Arthur, Dong Wei, Busnengo H Fabio

机构信息

Instituto de Investigaciones en Fisicoquimica de Córdoba, CONICET, Universidad Nacional de Córdoba, Haya de la Torre s/n, X5000HUA Córdoba, Argentina.

Department of Electrical Engineering and Computer Science, University of Lige, Alle de la Découverte 10, B-4000 Lige, Belgium.

出版信息

J Phys Chem Lett. 2020 Mar 19;11(6):2211-2218. doi: 10.1021/acs.jpclett.0c00260. Epub 2020 Mar 5.

DOI:10.1021/acs.jpclett.0c00260

PMID:32073863

Abstract

Quasiclassical trajectory calculations and vibrational-state-selected beam-surface measurements of CH chemisorption on Ir(111) reveal a nonthermal, hot-molecule mechanism for C-H bond activation. Low-energy vibrationally excited molecules become trapped in the physisorption well and react before vibrational and translational energies accommodate the surface. The reaction probability is strongly surface-temperature-dependent and arises from the pivotal role of Ir atom thermal motion. In reactive trajectories, the mean outward Ir atom displacement largely exceeds that of the transition-state geometry obtained through a full geometry optimization. The study also highlights a new way for (temporary) surface defects to impact high-temperature heterogeneous catalytic reactivity. Instead of reactants diffusing to and competing for geometrically localized lower barrier sites, transient, thermally activated surface atom displacements deliver low-barrier surface reaction geometries to the physisorbed reactants.

摘要

对CH在Ir(111)上化学吸附的准经典轨迹计算和振动态选择的束流-表面测量揭示了一种用于C-H键活化的非热、热分子机制。低能振动激发分子被困在物理吸附阱中，并在振动和平动能量适应表面之前发生反应。反应概率强烈依赖于表面温度，并且源于Ir原子热运动的关键作用。在反应轨迹中，Ir原子的平均向外位移在很大程度上超过了通过完全几何优化获得的过渡态几何结构的位移。该研究还突出了（临时）表面缺陷影响高温多相催化反应性的一种新方式。不是反应物扩散到几何定位的低势垒位点并竞争，而是瞬态的、热激活的表面原子位移将低势垒表面反应几何结构传递给物理吸附的反应物。

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高温催化下非热前驱体介导的解离化学吸附

Nonthermalized Precursor-Mediated Dissociative Chemisorption at High Catalysis Temperatures.

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