单原子催化剂的电子行为与二氧化碳还原成含氧化合物之间的关系

IF 22.2 Q1 CHEMISTRY, MULTIDISCIPLINARY
Fenghai Cao , Guangbo Liu , Xianbiao Wang , Li Tan , Noritatsu Tsubaki
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引用次数: 0

摘要

单原子催化剂(SAC)具有 100% 的原子效率和独特的电子特性,在将 CO2 还原成含氧化合物的过程中表现出卓越的催化性能。然而,在 SACs 上进行反应时,活性位点和关键中间产物的电子结构会发生持续变化。通过结构-活性关系来解释这些现象具有挑战性。在这里,"电子行为 "阐明了活性位点和关键中间产物之间电子相互作用的动态性质。在这篇综述中,我们探讨了二氧化碳活化过程中二氧化碳分子和 SAC 活性位点内电子结构的转变,阐明了这两个实体之间复杂的相互作用。然后,我们深入探讨了热催化、电催化和光催化二氧化碳转化过程中涉及的电子变化过程。此外,我们还精确阐述了催化剂的电子行为对结构-活性关系的影响。最后,概述了 SAC 电子行为的挑战和未来前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The relationship between electronic behavior of single atom catalysts and CO2 reduction to oxygenates

The relationship between electronic behavior of single atom catalysts and CO2 reduction to oxygenates
Single-atom catalysts (SACs), with 100% atomic efficiency and distinctive electronic properties, show excellent catalytic performance for CO2 reduction to oxygenates. However, the electronic structure of active sites and key intermediates undergo continuous changes during the reaction on SACs. It is challenging to explain these phenomena through structure-activity relationship. Herein, the “electronic behavior” elucidates the dynamic nature of electronic interactions between active sites and key intermediates. In this review, we invesitgate the transformation of the electronic structure within the CO2 molecule and the active site of SACs during CO2 activation, elucidating the complex interplay between these two entities. Then, we delve into the electronic change processes involved in thermal, electro-, and photo-catalytic CO2 conversion, providing in-depth discussions. Additionally, the influence of the catalyst's electronic behavior on the structure-activity relationship is delineated with precision. At last, the challenges and future perspectives of electronic behavior for SACs are outlined.
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来源期刊
EnergyChem
EnergyChem Multiple-
CiteScore
40.80
自引率
2.80%
发文量
23
审稿时长
40 days
期刊介绍: EnergyChem, a reputable journal, focuses on publishing high-quality research and review articles within the realm of chemistry, chemical engineering, and materials science with a specific emphasis on energy applications. The priority areas covered by the journal include:Solar energy,Energy harvesting devices,Fuel cells,Hydrogen energy,Bioenergy and biofuels,Batteries,Supercapacitors,Electrocatalysis and photocatalysis,Energy storage and energy conversion,Carbon capture and storage
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