Pt（111）上氢重组脱附的环状聚合物分子动力学速率

IF 6.2

Precision Chemistry Pub Date : 2025-02-06 DOI:10.1021/prechem.4c0009910.1021/prechem.4c00099

Liang Zhang, Florian Nitz, Dmitriy Borodin, Alec M. Wodtke and Hua Guo*,

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引用次数: 0

摘要

将环聚合物分子动力学（RPMD）速率理论应用于Pt（111）表面吸附氢原子的重组解吸（RD），这是一个在多相催化中至关重要的基本表面反应。最近的实验提供了对氢RD率的高度精确测量，为理论预测提供了罕见的基准。实验标定的第一原理势能表面上H2 RD的RPMD速率系数与实验数据在不同温度下接近2倍。重要的是，我们的结果表明，在这个原型系统中，主要的核量子效应是反应物的零点能量，而不是隧穿。

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Ring Polymer Molecular Dynamics Rates for Hydrogen Recombinative Desorption on Pt(111)

The ring polymer molecular dynamics (RPMD) rate theory, which is capable of handling nuclear quantum effects such as zero-point energy and tunneling, is applied to the recombinative desorption (RD) of adsorbed hydrogen atoms on a Pt(111) surface, a fundamental surface reaction crucial in heterogeneous catalysis. Recent experiments have provided highly accurate measurements of hydrogen RD rates, offering rare benchmarks for theoretical predictions. The RPMD rate coefficients of H₂ RD on an experimentally calibrated first-principles potential energy surface closely match the experimental data within a factor of 2 at several temperatures. Importantly, our results reveal that the dominant nuclear quantum effect in this prototypic system is the reactant zero-point energy, rather than tunneling.

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来源期刊

Precision Chemistry 精密化学技术-

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： Chemical research focused on precision enables more controllable predictable and accurate outcomes which in turn drive innovation in measurement science sustainable materials information materials personalized medicines energy environmental science and countless other fields requiring chemical insights.Precision Chemistry provides a unique and highly focused publishing venue for fundamental applied and interdisciplinary research aiming to achieve precision calculation design synthesis manipulation measurement and manufacturing. It is committed to bringing together researchers from across the chemical sciences and the related scientific areas to showcase original research and critical reviews of exceptional quality significance and interest to the broad chemistry and scientific community.