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Perturbed angular correlation spectroscopy of defects in CeriaWang, Ruiping 03 May 1991 (has links)
Graduation date: 1991
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Phase Equilibrium for Solid and Molten Ce0 [subscript 2]-[subscript x] Above 1500°CWatson, Michael David 08 1900 (has links)
No description available.
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Continuum modeling of mixed conductors a study of ceria /Ciucci, Francesco. Goodwin, David G. Culick, F. Colonius, T. Goodwin, David G., January 1900 (has links)
Thesis (Ph. D.) -- California Institute of Technology, 2009. / Title from home page (viewed 03/03/2010). Advisor and committee chair names found in the thesis' metadata record in the digital repository. Includes bibliographical references.
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Cerium oxide nano-feather: synthesis, modification and functionalization.January 2007 (has links)
Mak, Chun Chung. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2007. / Includes bibliographical references (leaves 83-85). / Abstracts in English and Chinese. / ABSTRACT --- p.iv / DECLARATION --- p.vi / ACKNOWLEDGEMENT --- p.vii / TABLE OF CONTENTS --- p.ix / LIST OF TABLES --- p.xii / LIST OF FIGURES --- p.xiii / Chapter Chapter One: --- Overview --- p.1 / Introduction to Cerium Oxide --- p.1 / Defects --- p.2 / Effect of dopants --- p.5 / Nano-structures of ceria --- p.8 / Loading metals in ceria supports --- p.10 / Summary --- p.11 / Scope of work --- p.12 / References --- p.14 / Chapter Chapter Two: --- Synthesis of Ceria Nano-feathers / Introduction --- p.17 / Experimental Section (Preparation of nano feathers) --- p.19 / Experimental Section (Preparation of conventional ceria spheres) --- p.19 / Experimental Section (Encapsulation the feather with gold) --- p.19 / Experimental Section (Instrumentation) --- p.20 / Results and Discussion (XRD) --- p.22 / Results and Discussion (SEM) --- p.23 / Results and Discussion (TEM) --- p.24 / Formation Mechanism --- p.30 / Results and Discussion (Nano-beam diffraction) --- p.33 / Results and Discussion (HREM) --- p.35 / Results and Discussion (TEM of gold encapsulated ceria) --- p.36 / Results and Discussion (XPS) --- p.39 / Summary --- p.41 / References --- p.41 / Chapter Chapter Three: --- Preparation of Homogenous Cerium Mixed Oxide Nano-feathers --- p.43 / Introduction --- p.43 / Experimental Section (Preparation of nano-feathers) --- p.44 / Experimental Section (Instrumentation) --- p.45 / Results and Discussion (XRD) --- p.47 / Results and Discussion (XPS) --- p.49 / Results and Discussion (TEM and EELS) --- p.56 / Summary --- p.64 / References --- p.64 / Chapter Chapter Four: --- Engineering Ceria Nano-feathers with Noble Metals: A Sono-chemistry approach --- p.66 / Introduction --- p.66 / Experimental Section (Sample Preparation) --- p.68 / Experimental Section (Instrumentation) --- p.69 / Results and Discussion (XRD) --- p.70 / Results and Discussion (XPS) --- p.71 / Results and Discussion (TEM and HREM) --- p.76 / Summary --- p.82 / References --- p.84 / Conclusions --- p.86
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Synthesis and applications of nanocrystalline ceriaPatil, Swanand D. 01 January 2003 (has links)
Nanomaterials possess unusual chemical and physical properties than their bulk counterparts because of their large surface to volume ratio. This benefit has found applications in the fields of optics, electronics catalysis and biomedicine. Over the past two decades cerium oxide based materials have been extensively studied and used in applications such as glass and ceramics, phosphor/luminescence and in various catalysis and chemical applications. Nanocrystalline cerium oxide materials can benefit not only these applications, but they also possess some unique properties such as blue shift in ultraviolet absorption spectra, shifting and broadening of Raman allowed modes and lattice expansion. Unfortunately, the high specific surface area of the nanocrystalline particles also results in a stronger tendency of the particles to agglomerate. The problem of agglomeration is of prime concern for the particles smaller than 5nm and the beneficial effects of the nanosized particles are usually lost due to the agglomeration problem. Therefore synthesis of non-agglomerated nanocrystalline cerium oxide particles is highly important in improvement of properties for various applications.
The present study investigates the use of microemulsion for synthesis of monodispersed, non-agglomerated nanocrystalline cerium oxide particles. Sodium bis(2-ethylhexyl sulphosuccinate (AOT) was used as a surfactant in the microemulsion system used in this study. It was found that the use of hydrogen peroxide as a precipitating agent gives a very stable sol of cerium oxide containing nanocrystalline particles of 3nm in size. The particle morphology and chemical state study was done for these particles and it was found that cerium oxide nanoparticles consist of both Ce(+3) and Ce(+4) valence states while the micron sized cerium oxide particles consist of only Ce(+4) valence state. Different applications of the synthesized cerium oxide nanoparticles were also studied.
The beneficial effects of the synthesized nanocrystalline ceria to improve the high temperature oxidation resistance of stainless steel were investigated using oxidation kinetics measurements. For comparing the size effect on the improvement, comparative coatings of 10 μm and 20nm-sized cerium oxide were also studied. It was found that the 3nm-sized ceria gave the best results in improving high temperature oxidation resistance of stainless steel even in cyclic heating conditions. It results in a fine grained scale morphology with improved scale adhesion to the substrate and changed the scale growth mechanism from cation outward to oxygen inward. The role of Ce(+3) valence state in nanocrystalline cerium oxide particles to improve the oxidation resistance is proposed and discussed.
Another application of the synthesized nanocrystalline ceria was found in improving lifespan of in vitro cell cultures in collaboration with Molecular Biology and Microbiology Department. Although this is the not main part of this thesis, however, it is worth mentioning that cerium oxide nanoparticles prolonged brain cell longevity by 2-3 fold. Further, these nanoparticles reduced hydrogen peroxide and UV light induced cell injury by over 60%. It is hypothesized that the cerium oxide nanoparticles act as free radical scavengers due to their unique structure, with respect to valence and oxygen defects, to promote cell longevity. Thus nanotechnology plays a vital role at the interface of materials science and molecular and microbiology.
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Crystal study of Zr[subscript]0# [subscript]812Y[subscript]0# [subscript]188O[subscript]1# [subscript]91 and CeO[subscript]2 by x-ray powder diffraction and a computer pattern-fitting techniqueHann, Raiford Eugene 12 1900 (has links)
No description available.
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Sources of flow maldistribution in microreactor-assisted synthesis of ceria nanoparticles /Tseng, Chih-Heng. January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2009. / Printout. Includes bibliographical references. Also available on the World Wide Web.
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The mechanism of cerium (IV) oxidation of glucose and cellulosePottenger, Charles R. 01 January 1968 (has links)
No description available.
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The mechanism of cerium(IV) oxidation of glucose and cellulosePottenger, Charles F., January 1968 (has links) (PDF)
Thesis (Ph. D.)--Institute of Paper Chemistry, 1968. / Bibliography: leaves 89-93.
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Obtencao de oxido de cerio com alta area superficial especificaALBANEZ, NELMA E.F.K. 09 October 2014 (has links)
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