Unravelling the Nature of the Active Species as well as the Doping Effect over Cu/Ce-Based Catalyst for Carbon Monoxide Preferential Oxidation

催化作用 一氧化碳 化学吸附 氧气 近程 X射线光电子能谱 化学 无机化学 吸附 解吸 拉曼光谱 漫反射红外傅里叶变换 氧气储存 物理化学 化学工程 有机化学 光催化 生物化学 物理 光学 工程类
作者
Jichang Lu,Jing Wang,Qin Zou,Dedong He,Zhang Li-ming,Zhizhi Xu,Sufang He,Yongming Luo
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:9 (3): 2177-2195 被引量:207
标识
DOI:10.1021/acscatal.8b04035
摘要

The active sites of a mixed Cu/Ce material and the doping effect of typical element (iron, Fe) on the active species and the catalytic behavior of Cu/Ce for CO preferential oxidation in rich H2 (CO-PROX) were investigated by in situ diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS), in situ oxygen storage capacity measurement (OSC) combined with designed temperature-programmed reduction (TPR), along with Raman, X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and temperature-programmed desorption/reduction of CO (CO-TPD/TPR). These results showed that two kinds of surface active center were involved in the CuCe- and Fe-doped CuCe systems, that is, Cu+ as adsorption sites for the chemisorption and the activation of CO molecules, the surface reactive oxygen (the highly dispersed oxygen and surface lattice oxygen) that directly participated in the whole CO oxidation process. The addition of Fe into CuCe sample resulted in the incorporation of Fe into CeO2 lattice forming Fe–O–Ce structure and generated more oxygen vacancies, which not only enhanced the interaction between Cu and Ce to form more Cu+ absorption sites but also trapped the gas-phase oxygen and promoted the release of subsurface lattice oxygen to supply more reactive oxygen. Thus, the turnover frequency (TOF) value was increased from 3.62 × 10–2 s–1 for CuCe to 4.50 × 10–2 s–1 for Fe-doped CuCe. Moreover, with the enhancement of the lattice oxygen migration combined with the promotional role of Fe on the water gas shift (WGS), the capacity of the resistance to CO2 and H2O was enhanced for Fe-doping CuCe, and the corresponding stability time was largely prolonged from 170 to 400 h, in the coexistence of CO2 and H2O.
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