Metal–support interactions in metal oxide-supported atomic, cluster, and nanoparticle catalysis†

IF 40.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemical Society Reviews Pub Date : 2024-10-02 DOI:10.1039/D4CS00527A
Denis Leybo, Ubong J. Etim, Matteo Monai, Simon R. Bare, Ziyi Zhong and Charlotte Vogt
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Abstract

Supported metal catalysts are essential to a plethora of processes in the chemical industry. The overall performance of these catalysts depends strongly on the interaction of adsorbates at the atomic level, which can be manipulated and controlled by the different constituents of the active material (i.e., support and active metal). The description of catalyst activity and the relationship between active constituent and the support, or metal–support interactions (MSI), in heterogeneous (thermo)catalysts is a complex phenomenon with multivariate (dependent and independent) contributions that are difficult to disentangle, both experimentally and theoretically. So-called “strong metal–support interactions” have been reported for several decades and summarized in excellent review articles. However, in recent years, there has been a proliferation of new findings related to atomically dispersed metal sites, metal oxide defects, and, for example, the generation and evolution of MSI under reaction conditions, which has led to the designation of (sub)classifications of MSI deserving to be critically and systematically evaluated. These include dynamic restructuring under alternating redox and reaction conditions, adsorbate-induced MSI, and evidence of strong interactions in oxide-supported metal oxide catalysts. Here, we review recent literature on MSI in oxide-supported metal particles to provide an up-to-date understanding of the underlying physicochemical principles that dominate the observed effects in supported metal atomic, cluster, and nanoparticle catalysts. Critical evaluation of different subclassifications of MSI is provided, along with discussions on the formation mechanisms, theoretical and characterization advances, and tuning strategies to manipulate catalytic reaction performance. We also provide a perspective on the future of the field, and we discuss the analysis of different MSI effects on catalysis quantitatively.

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金属氧化物支撑的原子、团簇和纳米粒子催化中的金属-支撑相互作用。
支撑金属催化剂对化学工业中的大量工艺至关重要。这些催化剂的整体性能在很大程度上取决于吸附剂在原子层面上的相互作用,而这种相互作用可由活性材料的不同成分(即支撑体和活性金属)来操纵和控制。在异相(热)催化剂中,催化剂活性的描述以及活性成分与载体之间的关系,即金属与载体之间的相互作用(MSI),是一种复杂的现象,具有多变量(依赖和独立)贡献,在实验和理论上都很难将其区分开来。所谓的 "强金属-支撑物相互作用 "已被报道了几十年,并在优秀的综述文章中进行了总结。然而,近年来,有关原子分散金属位点、金属氧化物缺陷以及反应条件下 MSI 的生成和演变等方面的新发现层出不穷,从而产生了 MSI 的(子)分类,值得对其进行批判性和系统性评估。这些分类包括氧化还原和反应交替条件下的动态重组、吸附剂诱导的 MSI 以及氧化物支撑的金属氧化物催化剂中强相互作用的证据。在此,我们回顾了有关氧化物支撑金属颗粒中 MSI 的最新文献,以提供对支撑金属原子、团簇和纳米颗粒催化剂中观察到的效应的基本物理化学原理的最新理解。我们对 MSI 的不同子分类进行了严格评估,并讨论了其形成机理、理论和表征方面的进展以及操纵催化反应性能的调整策略。我们还对该领域的未来进行了展望,并讨论了不同 MSI 对催化效果的定量分析。
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来源期刊
Chemical Society Reviews
Chemical Society Reviews 化学-化学综合
CiteScore
80.80
自引率
1.10%
发文量
345
审稿时长
6.0 months
期刊介绍: Chemical Society Reviews is published by: Royal Society of Chemistry. Focus: Review articles on topics of current interest in chemistry; Predecessors: Quarterly Reviews, Chemical Society (1947–1971); Current title: Since 1971; Impact factor: 60.615 (2021); Themed issues: Occasional themed issues on new and emerging areas of research in the chemical sciences
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