Effect of Ni and Fe Doping Levels on the Nano Core–Shell Structure La2Ni2–xFexO6@CeO2 Double Perovskite Type Composite Catalysts for Dry Reforming of Methane Performance

材料科学 催化作用 二氧化碳重整 吸附 氧气 合成气 离解(化学) 活化能 化学工程 空位缺陷 钙钛矿(结构) 无机化学 物理化学 结晶学 化学 工程类 生物化学 有机化学
作者
Jinlei Wu,Lan Zhang,Zhuonan Huang,Guiquan Zhang,Yuqi Wang,Xiangyi Wang,Xin Ding,Yanan Li,Gang Xie
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (26): 37987-38003 被引量:3
标识
DOI:10.1021/acsami.5c06220
摘要

Dry reforming of methane (DRM) used two greenhouse gases (CO2 and CH4) as reactants to produce hydrogen and syngas, which is considered to be an effective means to address the greenhouse effect. In this paper, a series of nano core-shell structure La2Ni2-xFexO6@CeO2 composite catalysts with Ni and Fe double regulation at the B-site were prepared by the sol-gel method and applied to the DRM reaction. The experimental results showed that the addition of the Ni ion at the B position of double perovskite can boost the active sites on the prepared catalyst surface and thereby promote the activation and decomposition of reactants. Simultaneously, the incorporation of Fe ions can also increase the lattice oxygen migration and internal oxygen vacancy concentration of the perovskite, and the La2Ni1.6Fe0.4O6@CeO2 sample has the highest surface chemisorbed oxygen content (53.37%). Moreover, the strong interaction between the La2Ni2-xFexO6 core and the CeO2 shell can enlarge the specific surface area and pore volume, which could further improve the oxygen vacancy concentration and coke resistance ability and thus may stimulate the adsorption and dissociation of CH4 and CO2. Meanwhile, the suitable doping ratio of Ni and Fe can effectively enhance the redox performance of the catalyst, and the synergistic effect between Ni and Fe can markedly improve its thermal stability and carbon resistance. The density functional theory was employed to reveal the CH4 adsorption kinetics, and the calculation results convinced us that the La2Ni1.6Fe0.4O6@CeO2 catalyst possessed a lower energy barrier and carbon elimination effect in DRM as expected. Moreover, a fixed-bed tubular reactor was employed to evaluate the catalytic performance of the as-prepared samples, and the 6 h experiment results indicate that the La2Ni1.6Fe0.4O6@CeO2 catalyst achieves top reaction performance with the desired H2/CO of 1, with conversions of CH4 and CO2 reaching 93.12% and 89.95%, respectively. Finally, 41 h continuous stability experiments exhibit a slight decrease of CH4 and CO2 conversions (average: 89.25% and 84.37%), and the average H2/CO ratio still remained at 1.01.
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