in situ X-ray Absorption Spectroscopic Analysis of Gold-Palladium Bimetallic Nanoparticle Catalysts
Date
2013
Authors
MacLennan, Aimee
Banerjee, Abhinandan
Hu, Yongfeng
Miller, Jeffrey T
Scott, Robert WJ
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American Chemical Society
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Article
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Abstract
Gold–palladium core–shell nanoparticles have been previously shown to be extremely effective catalysts for a number of oxidation reactions including the aerobic oxidation of alcohols. However, the novel activity and durability of such catalysts are still poorly understood, and there are several putative mechanisms by which oxidation reactions can proceed. Previously we showed that Pd(II) salts in the presence of Au nanoparticles were also effective catalysts for the room temperature oxidation of crotyl alcohol. Herein we show an in situ X-ray absorption spectroscopy (XAS) study at both the Pd–K and Pd-LIII edges of Au nanoparticle/Pd(II) salt solutions in the presence of crotyl alcohol. Liquid cells with X-ray permeable windows were used to obtain quick-scan XAS data during the oxidation of crotyl alcohol, allowing for time-resolved Pd speciation information and information about the reaction mechanism and kinetics. XAS measurements definitively show that the first step of this reaction involves Pd reduction onto the Au nanoparticles; in addition, further studies of the stability of the resulting Au–Pd core–shell nanoparticles toward oxygen gas suggests that the role of Au in such catalysts is to prevent the reoxidation of the catalytically active surface Pd atoms. Catalytic crotyl alcohol oxidation measurements were done which validated that the in situ reduction of Pd(II) in the presence of Au nanoparticles did indeed result in catalytically active AuPd bimetallic catalysts.
Description
Keywords
Bimetallic, X-ray absorption spectroscopy, In situ, Catalysis, Oxidation
Citation
A. MacLennan, A. Banerjee, Y. Hu, J. T. Miller, R. W. J. Scott ACS Catalysis, 2013, 3, 1411–1419.
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Citation
A. MacLennan, A. Banerjee, Y. Hu, J. T. Miller, R. W. J. Scott ACS Catalysis, 2013, 3, 1411–1419.
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DOI
10.1021/cs400230t