单原子催化剂M/γ-AlO（M = Pd、Fe、Co和Ni）催化CO氧化的理论研究

A Theoretical Investigation on CO Oxidation by Single-Atom Catalysts M/γ-AlO (M=Pd, Fe, Co, and Ni).

作者信息

Yang Tao, Fukuda Ryoichi, Hosokawa Saburo, Tanaka Tsunehiro, Sakaki Shigeyoshi, Ehara Masahiro

机构信息

Research Center for Computational Science Institute for Molecular Science Myodaiji Okazaki 444-8585 Japan.

Elements Strategy Initiative for Catalysts and Batteries (ESICB) Kyoto University Kyoto 615-8510 Japan.

出版信息

ChemCatChem. 2017 Apr 7;9(7):1222-1229. doi: 10.1002/cctc.201601713. Epub 2017 Mar 16.

DOI:10.1002/cctc.201601713

PMID:28515795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5413816/

Abstract

Single-atom catalysts have attracted much interest recently because of their excellent stability, high catalytic activity, and remarkable atom efficiency. Inspired by the recent experimental discovery of a highly efficient single-atom catalyst Pd/γ-AlO, we conducted a comprehensive DFT study on geometries, stabilities and CO oxidation catalytic activities of M/γ-AlO (M=Pd, Fe, Co, and Ni) by using slab-model. One of the most important results here is that Ni/AlO catalyst exhibits higher activity in CO oxidation than Pd/AlO. The CO oxidation occurs through the Mars van Krevelen mechanism, the rate-determining step of which is the generation of CO from CO through abstraction of surface oxygen. The projected density of states (PDOS) of 2 orbitals of the surface O, the structure of CO-adsorbed surface, charge polarization of CO and charge transfer from CO to surface are important factors for these catalysts. Although the binding energies of Fe and Co with AlO are very large, those of Pd and Ni are small, indicating that the neighboring O atom is not strongly bound to Pd and Ni, which leads to an enhancement of the reactivity of the O atom toward CO. The metal oxidation state is suggested to be one of the crucial factors for the observed catalytic activity.

摘要

单原子催化剂因其出色的稳定性、高催化活性和显著的原子效率，近年来备受关注。受近期高效单原子催化剂Pd/γ -AlO实验发现的启发，我们采用平板模型对M/γ -AlO（M = Pd、Fe、Co和Ni）的几何结构、稳定性及CO氧化催化活性进行了全面的密度泛函理论（DFT）研究。这里最重要的结果之一是，Ni/AlO催化剂在CO氧化中表现出比Pd/AlO更高的活性。CO氧化通过Mars van Krevelen机理发生，其速率决定步骤是通过表面氧的夺取使CO生成CO。表面O的2个轨道的投影态密度（PDOS）、CO吸附表面的结构、CO的电荷极化以及从CO到表面的电荷转移是这些催化剂的重要因素。尽管Fe和Co与AlO的结合能非常大，但Pd和Ni的结合能较小，这表明相邻的O原子与Pd和Ni的结合不强，从而导致O原子对CO的反应性增强。金属氧化态被认为是观察到的催化活性的关键因素之一。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2819/5413816/bbbdd168cacf/CCTC-9-1222-g001.jpg

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单原子催化剂M/γ-AlO（M = Pd、Fe、Co和Ni）催化CO氧化的理论研究

A Theoretical Investigation on CO Oxidation by Single-Atom Catalysts M/γ-AlO (M=Pd, Fe, Co, and Ni).

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