Modeling chemical reactions on surfaces: The roles of chemical bonding and van der Waals interactions

IF 8.7 2区 工程技术 Q1 CHEMISTRY, PHYSICAL
Guirong Su , Sha Yang , Yingda Jiang, Jingtai Li, Shuang Li, Ji-Chang Ren, Wei Liu
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引用次数: 33

Abstract

Chemical reactions on surfaces play central roles in heterogeneous catalysis, and most reactions involve the formation and/or the cleavage of bonds. At present, density functional theory (DFT) has become the workhorse for computational investigation of reaction mechanisms, but its predictive power has been severely limited by the lack of appropriate exchange-correlation functionals. Here, we show that there are many cases where the chemical bonding and van der Waals (vdW) interactions both play a key role in chemical reactions on surfaces. After briefly introducing some DFT methods and basic theory in chemical reactions, we first demonstrate that DFT can help to understand the mechanisms of “classic” reactions that mainly dominated by covalent bonding and vdW forces, as exemplified in electrocatalytic reduction of CO2 and the fabrication of 2D materials on metal substrates. We next show that DFT calculations can help to uncover the tautomerization reactions of molecules on metal surfaces, wherein the hydrogen bonding and vdW forces would largely affect the reaction process. More importantly, we show that in some cases, the vdW interactions can become the decisive effect that determines the adsorption configuration, energy hierarchy, and the potential-energy surface of chemical reactions, yielding distinct pathways and products. Additionally, we highlight the importance of more realistic conditions, such as surface defects, finite coverage, and temperature effects, in accurate modeling of chemical reactions. Finally, we summarize some challenges in modeling catalysis, which include many-body dispersive correction, strong correlation effect, and non-adiabatic approximations.

表面化学反应的模拟:化学键和范德华相互作用的作用
表面的化学反应在多相催化中起着核心作用,大多数反应涉及键的形成和/或裂解。目前,密度泛函理论(DFT)已成为反应机理计算研究的主要方法,但由于缺乏适当的交换相关泛函,其预测能力受到严重限制。在许多情况下,化学键和范德华(vdW)相互作用在表面化学反应中都起着关键作用。在简要介绍了一些DFT方法和化学反应的基本理论之后,我们首先证明了DFT可以帮助理解主要由共价键和vdW力主导的“经典”反应的机制,例如电催化还原CO2和在金属基底上制备二维材料。我们接下来表明,DFT计算可以帮助揭示分子在金属表面上的互变异构反应,其中氢键和vdW力将在很大程度上影响反应过程。更重要的是,我们表明,在某些情况下,vdW相互作用可以成为决定吸附构型、能量层次和化学反应势能表面的决定性影响,产生不同的途径和产物。此外,我们强调了更现实的条件的重要性,如表面缺陷、有限覆盖和温度效应,在化学反应的精确建模中。最后,总结了催化模拟中存在的一些问题,包括多体色散校正、强相关效应和非绝热近似。
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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来源期刊
Progress in Surface Science
Progress in Surface Science 工程技术-物理:凝聚态物理
CiteScore
11.30
自引率
0.00%
发文量
10
审稿时长
3 months
期刊介绍: Progress in Surface Science publishes progress reports and review articles by invited authors of international stature. The papers are aimed at surface scientists and cover various aspects of surface science. Papers in the new section Progress Highlights, are more concise and general at the same time, and are aimed at all scientists. Because of the transdisciplinary nature of surface science, topics are chosen for their timeliness from across the wide spectrum of scientific and engineering subjects. The journal strives to promote the exchange of ideas between surface scientists in the various areas. Authors are encouraged to write articles that are of relevance and interest to both established surface scientists and newcomers in the field.
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