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Scanning Tunneling Microscopy Studies on the Structure and Stability of Model Catalysts

2010
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Release : 2010
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Book Synopsis Scanning Tunneling Microscopy Studies on the Structure and Stability of Model Catalysts by : Fan Yang

Download or read book Scanning Tunneling Microscopy Studies on the Structure and Stability of Model Catalysts written by Fan Yang. This book was released on 2010. Available in PDF, EPUB and Kindle. Book excerpt: An atomic level understanding of the structure and stability of model catalysts is essential for surface science studies in heterogeneous catalysis. Scanning tunneling microscopy (STM) can operate both in UHV and under realistic pressure conditions with a wide temperature span while providing atomic resolution images. Taking advantage of the ability of STM, our research focuses on 1) investigating the structure and stability of supported Au catalysts, especially under CO oxidation conditions, and 2) synthesizing and characterizing a series of alloy model catalysts for future model catalytic studies. In our study, Au clusters supported on TiO2(110) have been used to model supported Au catalysts. Our STM studies in UHV reveal surface structures of TiO2(110) and show undercoordinated Ti cations play a critical role in the nucleation and stabilization of Au clusters on TiO2(110). Exposing the TiO2(110) surface to water vapor causes the formation of surface hydroxyl groups and subsequently alters the growth kinetics of Au clusters on TiO2(110). STM studies on Au/TiO2(110) during CO oxidation demonstrate the real surface of a working catalyst. Au clusters supported on TiO2(110) sinter rapidly during CO oxidation, but are mostly stable in the single component reactant gas, either CO or O2. The sintering kinetics of supported Au clusters has been measured during CO oxidation and gives an activation energy, which supports the mechanism of CO oxidation induced sintering. CO oxidation was also found to accelerate the surface diffusion of Rh(110). Our results show a direct correlation between the reaction rate of CO oxidation and the diffusion rate of surface metal atoms. Synthesis of alloy model catalysts have also been attempted in our study with their structures successfully characterized. Planar Au-Pd alloy films has been prepared on a Rh(100) surface with surface Au and Pd atoms distinguished by STM. The growth of Au-Ag alloy clusters have been studied by in-situ STM on a cluster-to-cluster basis. Moreover, the atomic structure of a solution-prepared Ru3Sn3 cluster has been resolved on an ultra-thin silica film surface. The atomic structure and adsorption sites of the ultrathin silica film have also been well characterized in our study.

Structure and Reactivity of Nanostructured Model Catalysts

2012
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Release : 2012
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Book Synopsis Structure and Reactivity of Nanostructured Model Catalysts by : Thorsten Staudt

Download or read book Structure and Reactivity of Nanostructured Model Catalysts written by Thorsten Staudt. This book was released on 2012. Available in PDF, EPUB and Kindle. Book excerpt:

Scanning Tunneling Microscopy Studies of Metal Clusters Supported on Graphene and Silica Thin Film

2012
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Release : 2012
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Book Synopsis Scanning Tunneling Microscopy Studies of Metal Clusters Supported on Graphene and Silica Thin Film by : Zihao Zhou

Download or read book Scanning Tunneling Microscopy Studies of Metal Clusters Supported on Graphene and Silica Thin Film written by Zihao Zhou. This book was released on 2012. Available in PDF, EPUB and Kindle. Book excerpt: The understanding of nucleation and growth of metals on a planar support at the atomic level is critical for both surface science research and heterogeneous catalysis studies. In this dissertation, two planar substrates, including graphene and ultra-thin silica film were employed for supported model catalysts studies. The structure and stability of several catalytically important metals supported on these two substrates were thoroughly investigated using scanning tunneling microscopy (STM) coupled with other traditional surface science techniques. In the study of the graphene/Ru(0001) system, the key factors that govern the growth and distribution of metals on the graphene have been studied based on different behaviors of five transition metals, namely Pt, Rh, Pd, Co, and Au supported on the template of a graphene moire pattern formed on Ru(0001). Both metal-carbon (M-C) bond strength and metal cohesive energies play significant roles in the cluster formation process and the M-C bond strength is the most important factor that affects the morphology of clusters at the initial stages of growth. Interestingly, Au exhibits two-dimensional (2-D) structures that span several moire unit cells. Preliminary data obtained by dosing molecular oxygen onto CO pre-covered Au islands suggest that the 2-D Au islands catalyze the oxidation of CO. Moreover, graphene/Ru(0001) system was modified by introducing transition metals, oxygen or carbon at the interface between the graphene and Ru(0001). Our STM results reveal that the geometric and/or electronic structure of graphene can be adjusted correspondingly. In the study of the silica thin film system, the structure of silica was carefully investigated and our STM images favor for the [SiO4] cluster model rather than the network structure. The nucleation and adsorption of three metals, namely Rh, Pt and Pd show that the bond strength between the metal atom and Si is the key factor that determines the nucleation sites at the initial stages of metal deposition. The annealing effect studies reveal that Rh and Pt atoms diffuse beneath the silica film and form the 2-D islands that are covered with a silica thin film. In contrast, the formation of Pd silicide was observed upon annealing to high temperatures.

Scanning Tunneling Microscopy in Surface Science, Nanoscience, and Catalysis

2009-11-11 Science
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Release : 2009-11-11
Genre : Science
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Book Rating : 834/5 ( reviews)

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Book Synopsis Scanning Tunneling Microscopy in Surface Science, Nanoscience, and Catalysis by : Michael Bowker

Download or read book Scanning Tunneling Microscopy in Surface Science, Nanoscience, and Catalysis written by Michael Bowker. This book was released on 2009-11-11. Available in PDF, EPUB and Kindle. Book excerpt: Here, top international authors in the field of STM and surface science present first-class contributions on this hot topic, bringing the reader up to date with the latest developments in this rapidly advancing field. The focus is on the nanoscale, particularly in relation to catalysis, involving developments in our understanding of the nature of the surfaces of oxides and nanoparticulate materials, as well as adsorption, and includes in-situ studies of catalysis on such model materials. Of high interest to practitioners of surface science, nanoscience, STM and catalysis.

Scanning Tunnelling Microscopy Studies of the Structure and Reactivity of Model Oxide-supported Catalysts

2003
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Release : 2003
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Book Synopsis Scanning Tunnelling Microscopy Studies of the Structure and Reactivity of Model Oxide-supported Catalysts by : Rupert David Smith

Download or read book Scanning Tunnelling Microscopy Studies of the Structure and Reactivity of Model Oxide-supported Catalysts written by Rupert David Smith. This book was released on 2003. Available in PDF, EPUB and Kindle. Book excerpt:

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