Following Cu Microstructure Evolution in CuZnO/Al2O3(−Cs) Catalysts During Activation in H2 using in situ XRD and XRD-CT

IF 6.1 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemistry methods : new approaches to solving problems in chemistry Pub Date : 2022-08-03 DOI:10.1002/cmtd.202200015
Dr. Daniela M. Farmer, Dr. Simon D. M. Jacques, Dr. David Waller, Dr. Sara Boullosa Eiras, Dr. Kanak Roy, Dr. Georg Held, Prof. Gopinathan Sankar, Prof. Andrew M. Beale
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引用次数: 1

Abstract

Understanding how the microstructure of the active Cu0 component in the commercially applicable Cu/ZnO/Al2O3(−Cs2O) low-temperature water-gas shift catalyst evolves under various H2 partial pressures in the presence/absence of a Cs promoter during thermal activation has been investigated. Time-resolved XRD and spatially-resolved XRD-CT data were measured as a function of H2 concentration along a packed bed reactor to elucidate the importance of the zincite support and the effect of the promoter on Cu sintering mechanisms, dislocation character and stacking fault probability. The rate of Cu reduction showed a dependency on [Cs], [H2] and bed height; lower [Cs] and higher [H2] led to a greater rate of metallic copper nanoparticle formation. A deeper analysis of the XRD line profiles allowed for determining a greater edge character to the dislocations and subsequent stacking fault probability was also observed to depend on higher [H2], smaller Cu0 (and ZnO) crystallite sizes, increased [ZnO] (30 wt.%, sCZA) and lower temperature. The intrinsic activity of Cu/ZnO/Al2O3 methanol synthesis catalysts has been intimately linked to the anisotropic behaviour of copper, and thus the presence of lattice defects; to the best knowledge of the authors, this study is the first instance in which this type of analysis has been applied to LT-WGS catalysts.

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用原位XRD和XRD‐CT研究CuZnO/ al2o3(−Cs)催化剂在h2活化过程中Cu的微观结构演变
研究了商用Cu/ZnO/ Al2O3(Cs2O)低温水煤气转换催化剂在不同H2分压下,在有无Cs促进剂的情况下,其活性Cu组分在热活化过程中的微观结构。利用时间分辨XRD和空间分辨XRD- ct数据作为H2浓度的函数在填充床上进行了测量,以阐明锌矿载体的重要性以及促进剂对Cu烧结机制、位错特征和层错概率的影响。Cu的还原速率与[Cs]、[H2]和床层高度有关;较低的[Cs]和较高的[H2]导致金属铜纳米颗粒的形成率较高。对XRD谱线进行更深入的分析,可以确定位错的更大边缘特征,并观察到随后的层错概率取决于较高的[H2],较小的Cu(和ZnO)晶粒尺寸,增加的[ZnO] (30 wt.%, sCZA)和较低的温度。Cu/ZnO/Al2O3甲醇合成催化剂的本征活性与铜的各向异性行为密切相关,因此存在晶格缺陷;据作者所知,这项研究是第一次将这种类型的分析应用于LT-WGS催化剂。
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