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过渡金属清洁表面和钾预吸附低指数表面上CO活化的比较理论研究。

Comparative theoretical study of CO activation on clean and potassium-preadsorbed low index surfaces of transition metals.

作者信息

Ma Yin-Ping, Wang Gui-Chang

机构信息

Frontiers Science Center for New Organic Matter, Tianjin Key Lab and Molecule-Based Material Chemistry, College of Chemistry, Nankai University, Tianjin, 300071, China.

Haihe Laboratory of Sustainable Chemical Transformation, Tianjin, 300192, China.

出版信息

J Mol Model. 2023 Nov 15;29(12):375. doi: 10.1007/s00894-023-05784-1.

DOI:10.1007/s00894-023-05784-1
PMID:37964098
Abstract

CONTEXT

The efficient catalysis of CO adsorption and activation presents a formidable challenge due to its pronounced thermodynamic stability and kinetic inertia. Previous experiments have left gaps in understanding the promotional effects and underlying mechanism of potassium. In this study, we systematically investigate CO adsorption and activation on clean and potassium-preadsorbed low index surfaces of transition metals. Theoretical results reveal a substantial augmentation in CO binding strength when potassium is introduced, concomitant with a general reduction in activation energies. Notably, linear correlations are significant on close-packed metal surfaces without and with potassium additive. Through a comprehensive analysis encompassing geometric parameters, electronic structures, and energy decomposition, we discern the physical underpinnings of the potassium effect. This enhancement is primarily ascribed to direct electron transfer and dipole-dipole interactions. Furthermore, we scrutinize the impact of an external electric field, demonstrating that the application of a negative electric field accelerates CO activation, mirroring the effects observed with potassium.

METHODS

All the periodic density function theory (DFT) calculations were performed by the Vienna Ab Initio Simulation package (VASP). The interaction between nucleus and valence electron was described using the pseudopotentials found in the projector augmented wave method (PAW). Throughout the entire work, the Bayesian error estimation functional (BEEF) was used.

摘要

背景

由于一氧化碳具有显著的热力学稳定性和动力学惰性,其吸附和活化的高效催化面临着巨大挑战。以往的实验在理解钾的促进作用和潜在机制方面存在空白。在本研究中,我们系统地研究了一氧化碳在清洁的和预吸附钾的过渡金属低指数表面上的吸附和活化。理论结果表明,引入钾后一氧化碳的结合强度显著增强,同时活化能普遍降低。值得注意的是,在有无钾添加剂的密排金属表面上,线性相关性都很显著。通过对几何参数、电子结构和能量分解的综合分析,我们识别出了钾效应的物理基础。这种增强主要归因于直接电子转移和偶极 - 偶极相互作用。此外,我们研究了外部电场的影响,结果表明施加负电场会加速一氧化碳的活化,这与钾的作用效果相似。

方法

所有周期性密度泛函理论(DFT)计算均使用维也纳从头算模拟包(VASP)进行。使用投影增强波方法(PAW)中的赝势来描述原子核与价电子之间的相互作用。在整个工作中,使用了贝叶斯误差估计泛函(BEEF)。

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