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氧化铝负载 Rh 催化剂的结构表征:使用金属有机前体制备铈和锆改性的影响。

Structural characterization of alumina-supported Rh catalysts: effects of ceriation and zirconiation by using metal-organic precursors.

机构信息

Diamond Light Source, Chilton, Oxfordshire, OX11 0DE (UK); School of Chemistry, University of Southampton, Southampton, SO17 1BJ (UK).

出版信息

Chemphyschem. 2013 Oct 21;14(15):3606-17. doi: 10.1002/cphc.201300537. Epub 2013 Aug 13.

DOI:10.1002/cphc.201300537
PMID:23943563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3935408/
Abstract

The effects of the addition of ceria and zirconia on the structural properties of supported rhodium catalysts (1.6 and 4 wt % Rh/γ-Al2O3) are studied. Ceria and zirconia are deposited by using two preparation methods. Method I involves the deposition of ceria on γ-Al2O3 from Ce(acac)3, and the rhodium metal is subsequently added, whereas method II is based on a controlled surface reaction technique, that is, the decomposition of metal-organic M(acac)x (in which M=Ce, x=3 and M=Zr, x=4) on Rh/γ-Al2O3. The structures of the prepared catalyst materials are characterized ex situ by using N2 physisorption, transmission electron microscopy, high-angle annular dark-field scanning transmission election microscopy, energy-dispersive X-ray spectroscopy, X-ray photoelectron spectroscopy (XPS), and X-ray absorption fine structure spectroscopy (XAFS). All supported rhodium systems readily oxidize in air at room temperature. By using ceriated and zirconiated precursors, a larger rhodium-based metallic core fraction is obtained in comparison to the undoped rhodium catalysts, suggesting that ceria and zirconia protect the rhodium particles against extensive oxidation. XPS results indicate that after the calcination and reduction treatments, a small amount of chlorine is retained on the support of all rhodium catalysts. EXAFS analysis shows significant Rh-Cl interactions for Rh/Al2O3 and Rh/CeOx /Al2O3 (method I) catalysts. After reaction with H2/He in situ, for series of samples with 1.6 wt % Rh, the EXAFS first shell analysis affords a mean size of approximately 30 atoms. A broader spread is evident with a 4 wt % rhodium loading (ca. 30-110 atoms), with the incorporation of zirconium providing the largest particle sizes.

摘要

研究了添加氧化铈和氧化锆对负载型铑催化剂(1.6 和 4wt%Rh/γ-Al2O3)结构性能的影响。氧化铈和氧化锆通过两种制备方法沉积。方法 I 涉及从 Ce(acac)3 上沉积γ-Al2O3 上的氧化铈,然后添加铑金属,而方法 II 基于受控表面反应技术,即金属有机 M(acac)x(其中 M=Ce,x=3 和 M=Zr,x=4)在 Rh/γ-Al2O3 上的分解。采用 N2 物理吸附、透射电子显微镜、高角度环形暗场扫描透射电子显微镜、能量色散 X 射线光谱、X 射线光电子能谱(XPS)和 X 射线吸收精细结构光谱(XAFS)对制备的催化剂材料的结构进行了原位表征。所有负载的铑体系在室温下在空气中都很容易氧化。通过使用铈和锆前体,可以获得比未掺杂铑催化剂更大的基于铑的金属核心分数,这表明氧化铈和氧化锆可以防止铑颗粒的过度氧化。XPS 结果表明,在煅烧和还原处理后,所有铑催化剂的载体上都保留了少量的氯。EXAFS 分析表明,对于 Rh/Al2O3 和 Rh/CeOx/Al2O3(方法 I)催化剂,在反应与 H2/He 原位后,存在显著的 Rh-Cl 相互作用。对于负载量为 1.6wt%Rh 的一系列样品,进行 EXAFS 第一壳层分析后得到的平均粒径约为 30 个原子。对于负载量为 4wt%Rh 的样品,粒径分布更宽(约 30-110 个原子),其中锆的加入提供了最大的粒径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/bcdd66414c2e/cphc0014-3606-f10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/c77a64c7bb44/cphc0014-3606-f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/efe5bf420411/cphc0014-3606-f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/56f5dc3ab888/cphc0014-3606-f3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/4aa27f04eb3b/cphc0014-3606-f4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/008cc6982b09/cphc0014-3606-f5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/6d46eab14a20/cphc0014-3606-f6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/91bcb841c4be/cphc0014-3606-f7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/9eaace7448dc/cphc0014-3606-f8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/6a967f9c7bc1/cphc0014-3606-f9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/bcdd66414c2e/cphc0014-3606-f10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/c77a64c7bb44/cphc0014-3606-f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/efe5bf420411/cphc0014-3606-f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/56f5dc3ab888/cphc0014-3606-f3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/4aa27f04eb3b/cphc0014-3606-f4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/008cc6982b09/cphc0014-3606-f5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/6d46eab14a20/cphc0014-3606-f6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/91bcb841c4be/cphc0014-3606-f7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/9eaace7448dc/cphc0014-3606-f8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/6a967f9c7bc1/cphc0014-3606-f9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42dc/3935408/bcdd66414c2e/cphc0014-3606-f10.jpg

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