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Structural and catalytic studies of novel Au/Ni enantioselective catalystsTrant, Aoife Geraldine January 2008 (has links)
Heterogeneous enantioselective catalysis strives to create new successful catalysts. One of the most researched examples is the hydrogenation β-ketoesters using nickel-based catalysts. A hindrance in the industrial scale-up of this enantioselective hydrogenation reaction is the lack of exact details of how chirality is bestowed onto this achiral metal surface. While a number of mechanisms have been proposed to explain the enantioselective behaviour of this system, these are predominantly based on catalytic studies. An alternative approach is through surface science studies examining the morphology, structure and composition of this catalytic system. A range of ultrahigh vacuum based model studies investigating the structure and composition of ultrathin Ni films and Ni/Au surface alloys on Au{111} using the techniques of Scanning Tunnelling Microscopy (STM) and Medium Energy Ion Scattering (MEIS) are presented in this thesis. In addition, the adsorption of the chiral modifier (S)-glutamic acid has been studied on these surfaces using vibrational spectroscopy (Reflection Absorption Infrared Spectroscopy (RAIRS)) and Temperature Programmed Desorption (TPD). Furthermore, MEIS has been used to investigate the influence of (S)-glutamic acid on the surface composition of Au/Ni model catalysts detecting effects such as adsorbate induced segregation and de-alloying behaviour. In addition, colloidal preparative routes have been used to synthesise bimetallic Au/Ni nanoparticles supported on mesoporous silica. The catalysts are then modified by the adsorption of the chiral ligand, (R,R)-tartaric acid. Finally, the catalysts are tested for their activity and enantioselectivity with respect to methylacetoacetate hydrogenation. At each stage the catalysts are characterised by a combination of Extended X-ray Absorption Fine Structure (EXAFS); Transmission Electron Microscopy (TEM), Energy Dispersive X-ray Spectrometry (EDS) and Atomic Absorption Spectroscopy (AAS).
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Synthesis and characterisation of gold-rhodium nanocatalysts and their catalytic activity on carbon monoxide oxidationRikhotso, Rirhandzu Shamaine 10 May 2016 (has links)
A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg,
in fulfilment of the requirements for the degree of Masters of Science.
Johannesburg, 2016 / Gold nanoparticles are ideally suited as catalysts for selected low temperature reactions such as
CO oxidation for catalytic convertors in the motor industry due to their high activity. But they are
prone to sintering at high temperatures. Platinum-group-metal based catalysts are efficient at
elevated temperatures and generally inactive at lower temperatures. This study explored the CO
oxidation efficiency of gold nanoparticles and of a combination of gold and rhodium
nanoparticles. Variables such as pH, loading concentration and type of support were varied to
control the final properties of the Au based catalysts. Possible bimetallic systems of gold and
rhodium were explored for wider temperature range activity than gold alone. All catalysts were
characterised using Transmission Electron Microscopy (TEM), Energy Dispersive X-ray
Spectroscopy (EDS) and X-Ray Diffraction (XRD). Activity was measured using a temperature
controlled, custom-built reactor linked to a gas chromatograph.
The conditions yielding the smallest gold nanoparticles were established by adding 5, 8 or 10
wt.% loadings of chloroauric acid to aqueous suspensions of either TiO2 or SiO2 at pH 5, 7 or 9
and at 70-75 °C over 60 minutes. Each preparation was sealed in parafilm, aged in the dark at
room temperature for 3 days, vacuum-filtered and subsequently calcined at 300 °C. Gold
nanoparticles were smallest when deposited onto TiO2 instead of SiO2, at pH 7 and at a loading of
5 wt. %. A combination of gold and rhodium catalysts were subsequently prepared using these
conditions, with the simultaneous addition of rhodium at 1, 3, 5 or 10 wt. % loading.
Hydrolysis of gold is highly dependent upon pH, resulting in the synthesis of smaller particles
under alkaline conditions. Catalytic activity of samples analysed at 70 and 150 °C was highest for
gold nanoparticles below 5 nm, in agreement with previous studies. In the proposed bimetallic
catalysts, it was difficult to distinguish gold and rhodium nanoparticles in TEM images, although
EDS confirmed their combined presence on the TiO2 support. Particle sizes remained below 5 nm,
appearing monodispersed on the TiO2 support except at 10 % rhodium loading where some
nanoparticle aggregation was observed. CO oxidation activity showed an apparent temperaturedependent
shift in the optimal rhodium loading. Au-TiO2 catalysts with a 5% loading showed the
highest activity up to 350 °C for a period of 10 hours and the catalyst deactivated due to sintering.
At 150 and 200 °C the Au/Rh-TiO2 catalyst remained active for more than 12 hours. It was
concluded that the inclusion of rhodium is a potentially-favourable method for stabilising the
activity of gold catalysts.
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Wear rates of porcelain, acrylic and gold a thesis submitted in partial fulfillment ... in denture prosthodontics ... /Coffey, Edward Barton. January 1981 (has links)
Thesis (M.S.)--University of Michigan, 1981.
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Wear rates of porcelain, acrylic and gold a thesis submitted in partial fulfillment ... in denture prosthodontics ... /Coffey, Edward Barton. January 1981 (has links)
Thesis (M.S.)--University of Michigan, 1981.
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Characterization of the interface between prefabricated dental implant component and cast dental alloysSanli, Yurdanur, January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 147-151).
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Gold-enriched rims on placer gold grains: an evaluation of formational processesGroen, John Corwyn 07 February 2013 (has links)
Placer gold is frequently reported to assay at overall higher values of fineness than the gold in the rock from which it was liberated. A related phenomenon is the historical discovery of many extremely large gold nuggets (up to 28 lbs) in the southeastern United States that have no apparent source rock. Placer gold grains from the southeastem United States have been examined and found to frequently exhibit the development of nearly pure to pure gold rims around their borders. These gold rims are suggested as a possible cause of the high fineness placer deposits. Formation of very thick rims may also be the cause of the large nuggets. Formation of these gold-enriched rims by the often attributed mechanism of simple silver leaching is disputed on the basis of ineffective mechanisms for the removal of silver from the alloy. Diffusion of silver through the gold at low temperatures proceeds far too slowly to produce the chemical gradients observed in the placer gold grains. Comparison of the complexation capacities of 41 ligands with subsequent modelling of expected complex concentrations in natural stream and stream sediment waters indicates CN⁻ and S² as the most likely functional ligands for the transport and redeposition of supergene gold. Electrolytic refining of placer Au-Ag grains is also a process for forming gold-enriched rims that can operate together with secondary enrichment to produce the observed phenomena. / Master of Science
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Lattice model simulation of hydrogen effect on palladium gold alloys used as purification metal membranesKeita, Namory 07 May 2012 (has links)
Hydrogen fuel is seen as energy of the future. Hydrogen molecules (H₂) are mostly used in the petrochemical industry and ammonia production. Hydrogen molecules are produced in large majority by steam reforming of hydrocarbons (methane). However, the purification of hydrogen is still a major factor in the cost of producing hydrogen. The range of membranes is large with advantages and drawbacks of each type of membrane. Among those membranes, metal alloy membranes are widely used because of their selectivity, durability, and resistance to poisoning. In the past, it was assumed an alloy once formed would remain in its initial structure while hydrogen gas was permeating through. It has been shown experimentally that the presence of hydrogen in palladium gold metal alloys will change the structure of the alloy from a disordered to an ordered phase. Hydrogen isotherms at different temperatures were used to demonstrate the change in structure. This structural change resulted in an increase in solubility of hydrogen in the membrane. In this work, using NVT-Monte Carlo we calculated the effect of hydrogen on the structure and on the solubility of Pd₉₆Au₄ and Pd₈₅Au₁₅ alloys. The palladium gold alloy was used because it demonstrated high resistance to sulfur poisoning and similar or higher permeability seen in to pure Pd. The methods used do not require any experimental input except for the structure of the bulk crystal. The interstitial binding energies were calculated using a Cluster Expansion model derived previously by Semidey and Kang from plane wave Density Functional Theory. The metal atoms enthalpies of formation were calculated from a truncated version of the Cluster Expansion derived by Sluiter for fcc metal structures. We conclude that hydrogen presence in the metal membrane will change the membrane from a disordered to a Short Range Ordered structure.
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Study Of Surface Ordering And DisorderingMaiti, Subhankar 09 1900 (has links) (PDF)
No description available.
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Probing the influence of bimetallic composition on the Pd/Au catalysed synthesis of vinyl acetate monomerHaire, Andrew Richard January 2010 (has links)
Scanning Tunnelling Microscopy (STM) was utilised together with the high resolution depth-profiling capabilities of Medium Energy Ion Scattering (MEIS), a technique traditionally associated with single crystal substrates, to probe the mean size and depth dependent composition profile of bimetallic PdAu nanoparticles on planar oxide surfaces as functions of the starting composition and annealing temperature. In order to fit composition profiles to experimental MEIS data, a new analysis tool has been designed that models the particles as flat-topped structures with a hexagonal base which can be divided into a number of shells, each shell corresponding to a particular ion pathlength inside the material. The reliability of this method will be discussed in detail. Fitting results show that the surface layers are always significantly enriched in Au compared to the bulk alloy composition. By comparing MEIS data for clean surfaces data for modified surfaces it was found that Pd generally segregates towards the particle surface on adsorption of acetic acid. The interaction of potassium acetate with Au/Pd{111} alloy surfaces of varying composition has been investigated using Temperature Programmed Desorption (TPD) and Reflection Absorption Infra Red Spectroscopy (RAIRS). At lower coverage, potassium acetate reacts reversibly with the surface to form CO and carbonate. Formation of surface acetate is observed on Pd-rich surfaces only. At higher coverage, acetate is the major surface species formed on all samples examined.
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A geochemical and morphological investigation of placer gold grains from the southern Seward Peninsula, Alaska : implications for source and transport mechanismsGauntlett, Ernest John Herbert January 2015 (has links)
[Partial abstract]: This study presents the first detailed geochemical and morphological characterisation of gold grains from the southern Seward Peninsula, Alaska, a region with significant historical and on-going placer gold mining. Quantitative Au, Ag, Hg, and Cu data are presented for gold grains from eleven sites. Additionally, quantitative Te, W, As, and Sb trace element data are presented for gold grains from ten of the eleven sites. Although it is acknowledged that quantitative trace element analysis of gold grains is a relatively new endeavour, the limited trace element data obtained in this study suggest that trace element analysis could be useful for characterising gold sources on the southern Seward Peninsula. Major and minor element geochemical profiling is sufficient at differentiating between sites from regional provenance systems but insufficient at differentiating between sites within a single system. Differentiating among sites within a single system will likely require microchemical analysis of mineral inclusions and analysis of trace element signatures.
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