Deciphering orbital hybridization in heterogeneous catalysis

Electron Pub Date : 2024-01-24 DOI:10.1002/elt2.16
Xiaoyang Yue, Lei Cheng, Eszter Baráth, Rajenahally V. Jagadeesh, Quanjun Xiang
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Abstract

The catalytic coordinate is essentially the evolving frontier orbital interaction while feeding with catalytic materials and adsorbates under proper reaction conditions. The heterogeneous catalytic reaction mechanism involves the initial adsorption and activation of reactants, subsequent intermediate transformation, final target product desorption, and regeneration of catalytic materials. In these catalytic processes, interaction modulations in terms of orbital hybridization/coupling allow an intrinsic control on both thermodynamics and kinetics. Concerned charge transfer and redistribution, orbital splitting and rearrangement with specific orientation, and spin change and crossover pose a formidable challenge on mechanism elucidation; it is hard to precisely correlate the apparent activity and selectivity, let alone rational modulations on it. Therefore, deciphering the orbital couplings inside a catalytic round is highly desirable and the dependent descriptor further provides in-depth insights into catalyst design at the molecule orbital level. This review hopes to provide a comprehensive understanding on orbital hybridizations, modulations, and correlated descriptors in heterogeneous catalysis.

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破译异相催化中的轨道杂化
催化坐标本质上是在适当的反应条件下,催化材料和吸附剂在进料时不断演化的前沿轨道相互作用。异相催化反应机制包括反应物的初始吸附和活化、随后的中间转化、最终目标产物的解吸以及催化材料的再生。在这些催化过程中,轨道杂化/耦合方面的相互作用调制可对热力学和动力学进行内在控制。与之相关的电荷转移和再分配、特定取向的轨道分裂和重新排列以及自旋变化和交叉对机理阐明提出了严峻的挑战;很难精确地将表面活性和选择性联系起来,更不用说对其进行合理的调节了。因此,破译催化圆内部的轨道耦合是非常有必要的,而依附描述符则能进一步从分子轨道层面深入了解催化剂的设计。本综述希望能让大家全面了解异相催化中的轨道杂化、调制和相关描述符。
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