Strong Metal–Support Interactions between Copper and Iron Oxide during the 
High‐Temperature Water‐Gas Shift Reaction

Zhu, Minghui; Tian, Pengfei; Kurtz, Ravi; Lunkenbein, Thomas; Xu, Jing; Schlögl, Robert; Wachs, Israel E.; Han, Yi‐Fan

doi:10.1002/ange.201903298

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Strong Metal–Support Interactions between Copper and Iron Oxide during the High‐Temperature Water‐Gas Shift Reaction

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Lunkenbein, Thomas
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;

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Schlögl, Robert
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;

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WGS_Cu-FeOx SMSI manuscript.pdf
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Citation

Zhu, M., Tian, P., Kurtz, R., Lunkenbein, T., Xu, J., Schlögl, R., et al. (2019). Strong Metal–Support Interactions between Copper and Iron Oxide during the High‐Temperature Water‐Gas Shift Reaction. Angewandte Chemie, 131(27), 9181-9185. doi:10.1002/ange.201903298.

Cite as: https://hdl.handle.net/21.11116/0000-0004-5259-C

Abstract

The commercial high‐temperature water‐gas shift (HT‐WGS) catalyst consists of CuO‐Cr₂O₃‐Fe₂O₃, where Cu functions as a chemical promoter to increase the catalytic activity, but its promotion mechanism is poorly understood. In this work, a series of iron‐based model catalysts were investigated with in situ or pseudo in situ characterization, steady‐state WGS reaction, and density function theory (DFT) calculations. For the first time, a strong metal‐support interaction (SMSI) between Cu and FeO_x was directly observed. During the WGS reaction, a thin FeO_x overlayer migrates onto the metallic Cu particles, creating a hybrid surface structure with Cu‐FeO_x interfaces. The synergistic interaction between Cu and FeO_x not only stabilizes the Cu clusters, but also provides new catalytic active sites that facilitate CO adsorption, H₂O dissociation, and WGS reaction. These new fundamental insights can potentially guide the rational design of improved iron‐based HT‐WGS catalysts.