铱/氧化亚铁单原子催化剂中的双金属活性位点：水煤气变换反应的氧化还原机制

Dual Metal Active Sites in an Ir /FeO Single-Atom Catalyst: A Redox Mechanism for the Water-Gas Shift Reaction.

作者信息

Liang Jin-Xia, Lin Jian, Liu Jingyue, Wang Xiaodong, Zhang Tao, Li Jun

机构信息

Guizhou Provincial Key Laboratory of Computational Nano-Material Science, Guizhou Education University, Guiyang, 550018, China.

Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, 116023, China.

出版信息

Angew Chem Int Ed Engl. 2020 Jul 27;59(31):12868-12875. doi: 10.1002/anie.201914867. Epub 2020 May 20.

DOI:10.1002/anie.201914867

PMID:32289203

Abstract

Herein, we report a theoretical and experimental study of the water-gas shift (WGS) reaction on Ir /FeO single-atom catalysts. Water dissociates to OH* on the Ir single atom and H* on the first-neighbour O atom bonded with a Fe site. The adsorbed CO on Ir reacts with another adjacent O atom to produce CO , yielding an oxygen vacancy (O ). Then, the formation of H becomes feasible due to migration of H from adsorbed OH* toward Ir and its subsequent reaction with another H*. The interaction of Ir and the second-neighbouring Fe species demonstrates a new WGS pathway featured by electron transfer at the active site from Fe -O⋅⋅⋅Ir -O to Fe -O ⋅⋅⋅Ir -O with the involvement of O . The redox mechanism for WGS reaction through a dual metal active site (DMAS) is different from the conventional associative mechanism with the formation of formate or carboxyl intermediates. The proposed new reaction mechanism is corroborated by the experimental results with Ir /FeO for sequential production of CO and H .

摘要

在此，我们报道了关于Ir/FeO单原子催化剂上水汽变换（WGS）反应的理论和实验研究。水在Ir单原子上解离为OH*，在与Fe位点键合的第一近邻O原子上解离为H*。吸附在Ir上的CO与另一个相邻的O原子反应生成CO₂，产生一个氧空位（O⁻）。然后，由于H从吸附的OH向Ir迁移并随后与另一个H反应，H₂的形成变得可行。Ir与第二近邻Fe物种的相互作用展示了一种新的WGS途径，其特征是在活性位点处发生电子转移，从Fe -O⋅⋅⋅Ir -O转变为Fe -O ⋅⋅⋅Ir -O⁻，其中涉及O⁻。通过双金属活性位点（DMAS）的WGS反应的氧化还原机制不同于形成甲酸盐或羧基中间体的传统缔合机制。Ir/FeO用于依次生产CO₂和H₂的实验结果证实了所提出的新反应机制。

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铱/氧化亚铁单原子催化剂中的双金属活性位点：水煤气变换反应的氧化还原机制

Dual Metal Active Sites in an Ir /FeO Single-Atom Catalyst: A Redox Mechanism for the Water-Gas Shift Reaction.

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