Global ETD Search

371	The Charge-Carrier Dynamics and Photochemistry of CeO<sub>2</sub> Nanoparticles Pettinger, Natasha January 2019 (has links) No description available. Chemistry Materials Science Cerium Oxide Ceria CeO2 Transient Absorption Charge Carrier Dynamics Electron Small Polaron Small Polaron Charge Separation Self-Trapping Photocatalysis Photoreductive Dissolution Photocorrosion
372	Steam-Assisted Catalysis of n-Dodecane as a Jet Fuel Analogue in a Flow Reactor System for Hypersonic Thermal Management Smith, Bradley Joseph January 2019 (has links) No description available. Mechanical Engineering Engineering dodecanese hypersonic cracking catalysis pyrolysis thermal management endothermic platinum catalyst cerium catalyst catalytic cracking coking mitigation steam assistance fuel endotherm chemical heat sink
373	Rare earth element bioaccumulation and anomalies in organisms of northeastern Nunavik (Quebec, Canada) Marginson, Holly 07 1900 (has links) Comme la demande mondiale des éléments de terres rares (ETR) ne cesse d'augmenter, de nouveaux projets d'exploration ont été lancés dans de nombreux pays, incluant au Canada. Le présent projet découle d'un programme communautaire environnemental issu d'une collaboration entre des chercheurs et la communauté inuite de Kangiqsualujjuaq suite à la proposition d’un projet minier d'ETR au Nunavik. Pour répondre aux études limitées sur la distribution des ETR dans les environnements non pertubés, cette étude rapporte les niveaux actuellement observés des sédiments, des lichens et de multiples espèces animales provenant d'écosystèmes terrestres, d’eau douce et du milieu marin du subarctique de l’est du Canada. Les résultats suggèrent que toutes les matrices ont la capacité d'accumuler les ETR, bien qu'une dilution trophique soit notée. De plus, l’analyse des tissus d’espèces alimentaires traditionnelles a démontré que le foie des vertébrés avait des concentrations d'ETR plus élevées que le muscle et le gras, tandis que les tissus osseux et rénaux présentaient généralement des concentrations intermédiaires. En outre, les tendances observées pendant l'analyse des anomalies du cérium sensibles aux transformations d’oxydoréduction ont suggéré que ces anomalies peuvent servir de biomarqueur dans l’exposition aux ETR et leur transformation biologique. Dans l'ensemble, cette étude présente une bioaccumulation et un fractionnement d’ETR spécifiques aux espèces et aux tissus, ce qui justifie des recherches plus approfondies afin de comprendre les facteurs de contrôle du comportement d’ETR au sein des espèces animales. Ces résultats peuvent également servir à établir des lignes directrices nationales d’ETR, et servir de référence dans les futures études de biosurveillance. / A gradual increase in the release of rare earth elements (REE) to the environment has been reported, as well as a continuous rise in their global demand. New REE exploration projects have been initiated in multiple countries, including within Canada where REE deposits are frequently located in northern regions. This project stems from a community-based environmental program between researchers and the Inuit community of Kangiqsualujjuaq in the context of a prospective REE mine in Nunavik. To address the limited review of REE distribution in natural environments, the present study reports the current REE values for sediments, lichens, and multiple animal species from terrestrial, freshwater and marine ecosystems of the eastern Canadian subarctic. Results suggest that all matrices have the capacity to accumulate REE, though a biodilution across taxonomic groups is noted. Also, a study of animal tissue samples from country food species demonstrated that liver tissues have significantly higher concentrations of REE than the muscle and blubber, with bone and kidney tissues typically presenting intermediate concentrations. Further, the analysis of redox-sensitive cerium anomalies supported the presence of tissue-specific mechanisms that suggest these anomalies may serve as a biomarker in REE exposure and biological transformation. Overall, this study presents a species- and tissue- specific bioaccumulation and fractionation of REE that warrants further investigation to better understand the controlling factors of REE processing within animal species. The results may additionally serve in the establishment of national REE guidelines for environmental health and human consumption, and act as a reference in future biomonitoring studies. Éléments terres rares Lanthanides Bioaccumulation Biodistribution Organes Subarctique Anomalies de cérium Rare earth elements (REE) Organs Subarctic Cerium anomalies Biology / Biologie (UMI : 0306)
374	Probing And Tuning The Size, Morphology, Chemistry And Structure Of Nanoscale Cerium Oxide Kuchibhatla, Satyanarayana 01 January 2008 (has links) Cerium oxide (ceria)-based materials in the nanoscale regime are of significant fundamental and technological interest. Nanoceria in pure and doped forms has current and potential use in solid oxide fuel cells, catalysis, UV- screening, chemical mechanical planarization, oxygen sensors, and bio-medical applications. The characteristic feature of Ce to switch between the +3 and + 4 oxidation states renders oxygen buffering capability to ceria. The ease of this transformation was expected to be enhanced in the nanoceria. In most the practical scenarios, it is necessary to have a stable suspension of ceria nanoparticles (CNPs) over longer periods of time. However, the existing literature is confined to short term studies pertaining to synthesis and property evaluation. Having understood the need for a comprehensive understanding of the CNP suspensions, this dissertation is primarily aimed at understanding the behavior of CNPs in various chemical and physical environments. We have synthesized CNPs in the absence of any surfactants at room temperature and studied the aging characteristics. After gaining some understanding about the behavior of this functional oxide, the synthesis environment and aging temperature were varied, and their affects were carefully analyzed using various materials analysis techniques such as high resolution transmission electron microscopy (HRTEM), UV-Visible spectroscopy (UV-Vis), and X-ray photoelectron spectroscopy (XPS). When the CNPs were aged at room temperature in as-synthesized condition, they were observed to spontaneously assemble and evolve as fractal superoctahedral structures. The reasons for this unique polycrystalline morphology were attributed to the symmetry driven assembly of the individual truncated octahedral and octahedral seed of the ceria. HRTEM and Fast Fourier Transform (FFT) analyses were used to explain the agglomeration behavior and evolution of the octahedral morphology. Some of the observations were supported by molecular dynamic simulations. Poly (ethylene glycol) (PEG) and ethylene glycol (EG) were used to control the kinetics of this morphology evolution. The ability to control the agglomeration of CNPs in these media stems from the lower dielectric constant and an increased viscosity of the EG and PEG based solvents. CNPs when synthesized and aged in frozen conditions, i.e. in ice, were found to form one dimensional, high aspect ratio structures. A careful analysis has provided some evidence that the CNPs use the porous channels in ice as a template and undergo oriented attachment to form nanorods. When the aging treatment was done near freezing temperature in solution, the nanorods were not observed, confirming the role of channels in ice. When synthesized in aqueous media such as DI water, PEG and EG; CNPs were observed to exhibit a reversible oxidation state switching between +3 and +4. Band gap values were computed from the optical absorption data. The changes in the band gap values observed were attributed to the changes in the oxidation state of CNPs as opposed to the quantum confinement effects, as expected in other nanoparticle systems. The work presented in this dissertation demonstrates, with evidence, that in order to obtain a comprehensive understanding of the properties of nanoscale materials it is of paramount importance to monitor their behavior over relatively longer periods of time under various ambient environments. While the solution based techniques offer a versatility and low cost route to study the fundamental properties of nanomaterials, they suffer some inherent problems such as precursor contamination and uncontrolled chemical reactions. Especially when analyzing the behavior of ceria-based materials for applications like solid oxide fuel cells, a great control in the density and crystalline quality are desired. In order to achieve this, as a first step pure ceria thin films were synthesized using oxygen plasma assisted molecular beam epitaxy (OPA-MBE). The ceria films were analyzed using various in situ and ex situ techniques to study the crystal structure, growth mode and epitaxial quality of the films. It was observed that the epitaxial orientation of the ceria films could be tuned by varying the deposition rate. When the films were grown at low deposition rate (< 8 Å/min) ceria films with epitaxial (200) orientation were observed where as the films grown at high deposition rates (up to 30 Å/min) showed (111) orientation. Theoretical simulations were used to confirm some of the experimental facts observed in both nanoparticles and thin films. Ceria Cerium Oxide Nanoparticles Morphology Agglomeration Self-Assembly Oxidation State Thin Films MBE UV-Vis HRTEM Band Gap Engineering Materials Science and Engineering
375	Progress in Understanding Structure and Reactivity of Transition Metal Oxide Surfaces Paier, Joachim 11 May 2020 (has links) Die vorliegende Habilitationsschrift bespricht aktuelle Ergebnisse zur Struktur und Reaktivität von Übergangsmetalloxidoberflächen. Es werden eingangs Grundlagen zur Berechnung von Eigenschaften von Oberflächen mittels Dichtefunktionaltheorie vorgestellt. Des Weiteren werden anhand von drei untersuchten Oxiden, nämlich dem Vanadium(III)-oxid, dem Cer(IV)-oxid, und dem Eisen(II,III)-oxid, der aktuelle Forschungsstand im Hinblick auf Oberflächenstruktur und Reaktivität von Phasengrenzen, wie z.B. der Phasengrenze zwischen Vanadium(V)-oxid und Cer(IV)-oxid und der Phasengrenze zwischen Wasser und Eisen(II,III)-oxid dargelegt. / The present habilitation thesis discusses results on structure and reactivity of transition metal oxide surfaces obtained using state-of-the-art density functional theory methods. First, fundamental issues of density functional theory are presented. Furthermore, the current state in research with respect to surface structure on one hand and reactivities of interfaces between different oxides like vanadium(III) and cerium(IV) oxide or water and iron(II,III) oxide on the other hand are developed. Dichtefunktionaltheorie Vanadiumoxid Cerdioxid Eisenoxid Infrarotspektroskopie Density functional theory Vanadium oxide cerium oxide iron oxide infrared spectroscopy 541 Physikalische Chemie VE 7007 VC 6107 ddc:541
376	Simultaneous Fixed Bed Removal of Nitrogen Oxides and Mercury Using Manganese and Cerium Mixed Metal Oxide Catalysts at Low Temperature SCR Patil, Aniket January 2018 (has links) No description available. Chemical Engineering Simultaneous removal of NO and Hg Low temperature SCR mixed metal oxide catalysts cerium and manganese NO reduction by NH3 Fixed Bed Removal
377	<b>Effect of Film Thickness on CeO</b><sub><strong>2</strong></sub><b>/Au Vertically Aligned Nanocomposite Morphology and Properties</b> Matteo T Moceri (18431868) 26 April 2024 (has links) <p dir="ltr">The primary goal of this work is to gain a fundamental understanding on how growth conditions affect the morphology and crystallography orientation of CeO<sub>2</sub>/Au vertically aligned nanocomposite (VAN) thin films. Focus has been placed on how the changes in morphology and crystallography translate to tunable optical properties. The morphological effects have been observed and analyzed via two main approaches: the change in morphology was observed at multiple points along the film thickness, and the morphology at the film/substrate interface has been analyzed with respect to total film thickness. The changes in Au crystallography orientations have been observed by measuring peak shift in XRD patterns and determining the resulting in- and out-of-plane strain. To observe additional effects of this morphology change, optical measurements have been taken for films at the bottom, middle, and top of the thickness range. Strong trends in transmittance, plasmonic absorption peak shifts and hyperbolic permittivity behavior are correlated with the film thickness. This tunability of optical properties likely arises from changes in both Au pillar phase morphology and crystal orientation. These findings demonstrate that changing film thickness may be a desirable method to easily tune the morphology and optical properties of VAN thin films.</p> Optical properties of materials Ceramics Composite and hybrid materials Nanomaterials VAN Vertically Aligned Nanocomposite Thin Film Pulsed Laser Deposition CeO2 Cerium Oxide Hyperbolic Metamaterials Permittivity Anisotropy Optical Tuning
378	On the Role of Oxygen Vacancies in the Surface Chemistry of Ceria (CeO2) Werner, Kristin 16 September 2019 (has links) Ceroxid (CeO2) wurde in den letzten Jahren als Katalysator für die Hydrierung von Alkinen zu Alkenen entdeckt und hat als solcher großes wissenschaftliches Interesse geweckt. Um weitere Einblicke in die Funktion von CeO2 in der Reaktion zu gewinnen, beschäftigt sich diese Arbeit mit der Adsorption von H2, CO2 und Propin, sowie mit der Interaktion von Hydroxylgruppen und Propin auf CeO2(111)-Oberflächen. Ein besonderer Fokus liegt dabei auf der Rolle von Sauerstoffleerstellen. / In recent years, ceria (CeO2) has attracted much scientific interest due to its activity as a catalyst in the selective hydrogenation of alkynes to alkenes. To gain further insights into the role of CeO2 in propyne hydrogenation, this thesis explores the fundamental processes of H2, CO2, and propyne adsorption, as well as the interaction of hydroxyls and propyne on well-defined CeO2(111) surfaces. A special emphasis thereby lies on the role of oxygen (O) vacancies in these processes. Hydrid Hydrierung Ceroxid Defekte Heterogene Katalyse Alkine Hydride Hydrogenation Defects Vacancies Heterogeneous Catalysis Alkynes Ceria Cerium dioxide 541 Physikalische Chemie VE 7047 VH 8049 VK 5577 ddc:541
379	Étude de l’effet Kondo au sein d’auto-assemblages de phtalocyanines par spectroscopie tunnel et photoémission / Molecular Kondo effect in phthalocyanine-based supramolecular lattices investigated by scanning tunneling spectroscopy and photoemission Granet, Julien 23 March 2018 (has links) Au cours de cette thèse, nous nous sommes intéressés à l'effet Kondo moléculaire au sein de réseaux supramoléculaires bidimensionnels en contact avec des surfaces métalliques monocristallines. Les techniques mises en oeuvre sont la diffraction d'électrons lents (LEED) et la microscopie à effet tunnel (STM) pour l'étude de la croissance ainsi que la spectroscopie à effet tunnel (STS) et la photoémission pour l'étude des propriétés électroniques. Les molécules employées dans le cadre de ce travail sont composées de macrocycles de phtalocyanine et tétraphénylporphyrine. Elles ont été choisies sur la base de l'orbitale contenant le spin moléculaire. Dans un premier cas, une phtalocyanine non métallée 2HPc a été déposée sur une surface monocristalline d'Ag(111). Un transfert de charge du métal vers la molécule conduit à l'apparition d'un effet Kondo à base température observé par STS sur des molécules individuelles ainsi que sur des auto-assemblages. Dans le deuxième cas, nous avons choisi un composé hôte à double plateaux contenant un ion cérium de type 4f. Nous avons mis en évidence l'influence du substrat sur l'effet Kondo. En effet, tandis que nous observons par STS, l'apparition d'une résonance Kondo lorsque la molécule est auto-assemblée sur Ag(111), aucun effet n'est observé sur Cu(111). Les résultats sont discutés en terme d'interactions molécule-molécule et molécule-substrat / In this work, we investigated molecular Kondo effect in two-dimensional supramolecular lattices adsorbed on metallic single crystalline surfaces by means of low-energy electron diffraction (LEED), scanning tunneling microscopy/spectroscopy (STM/STS) and photoemission (PES). The molecular compounds used in this PhD thesis have been chosen in regards to their spin orbital. The first molecule under investigation is a metal free phthalocyanine adsorbed on Ag(111). A Kondo effect has been evidenced by STS for single molecules as well as for self-assembly up to one monolayer coverage at low temperature. In that case, the spin originates from charge transfer from the Ag surface to the molecule. The second molecular compound is a double-decker molecule hosting a cerium 4f-ion. In that case, a Kondo resonance is evidenced by STS when it is self-assembled on Ag(111) whereas it is absent on Cu(111). These results are discussed in terms of intermolecular and molecule-metal interactions Effet Kondo moléculaire Spectroscopie à effet tunnel Photoémission Auto-assemblage moléculaire Phtalocyanine Porphyrine Cerium Argent Cuivre Résonance Kondo Température de Kondo Molecular Kondo effect Scanning tunneling spectroscopy Photoemission Molecular self-assembly Phthalocyanine Porphyrin Cerium Silver Copper Kondo resonance Kondo temperature 539.6 539.720 72
380	The influence of Al alloy microstructure on conversion coating formation Sainis, Salil January 2021 (has links) The formation of conversion coatings based on Ce, trivalent Cr and Ti/Zr is triggered by the local pH increase at cathodic IM sites of the aluminium alloy microstructure. The pH gradient is created over the cathodic intermetallic (IM) sites of the microstructure and its intensity is influenced by their activity which depends on their chemical composition, their size, and spatial distribution. Furthermore, the pre-treatment applied also affects the surface reactivity. The role of each of the microstructural features on the increased pH gradient and the subsequent triggering of local conversion coating deposition remains to be understood. To address the knowledge gap, model cast Al-Si-Fe and Al-Si-Cu-Fe alloys have been designed. Cerium based conversion coating treatment with standard parameters is applied to investigate the microstructure’s influence. Furthermore, four different surface pre-treatments’ effect on the topographical and electrochemical properties have been investigated by localized techniques and have been correlated with deposition experiment observations to prove surface reactivity. In this study, it was found that the four surface pre-treatments – polishing, NaOH, NaOH-HNO3, NaOH-H2SO4 activate the surface of alloys containing Fe-rich IM and Cu-rich IM differently. The surface pre-treatment NaOH-HNO3 was found most detrimental to the surface reactivity as the pre-treatment resulted in passivation of the IM and a drastic reduction in its volta potential. The best pre-treatment for the alloy Al-Si-Fe was found to be one with NaOH etching. In the case of Al-Si-Cu-Fe alloy, pre-treatments where a pickling step (with either H2SO4 or HNO3) was applied followed a NaOH etching step, the surface of the IM was activated more than other pre-treatments due to selective Al dealloying and Cu-redeposition. The extent of Cu-redeposition was observed to be the most when surfaces were pickled with HNO3 solution and with the NaOH- HNO3 pre-treatment, fastest deposition kinetics were observed. In the cast Al-Si-Cu-Fe alloy, the localized deposits were preferentially observed to form on only strong cathodic Cu-rich IM. The size (surface area) of the Cu-rich IM correlated linearly with the lateral deposition area as well as z-direction spread. It was found that the pH gradient resulting from the oxygen reduction reaction near an IM is very local and does not affect pH gradients of a neighbouring Cu-rich IM. The size did not have a profound impact on the extent of deposition occurring on a Cu-rich IM, but it was found that big Cu-rich IM activated faster for deposition reaction than small Cu-rich IM. When the progression of deposition on both coarse and fine microstructure cast Al-Si-Cu-Fe was quantitatively monitored at increasing conversion coating times 0.5h, 1h and 2h, it was observed that big Cu-rich IM in the coarse alloy triggered deposition faster than small Cu-rich IM. Deposition mechanism on Fe-rich IM was found to be composition specific. In the cast of big Fe-rich β-Al5FeSi IM, localized deposition initiated at the border on the IM and is explained based on Si content in the composition of the IM, which has very high resistivity. In another Fe-rich IM, although of a much smaller size, which had lower Si content and was richer in Fe, a localized deposition was observed on the entire IM. / Bildning av omvandlingsbeläggningar baserade på Ce, trivalent Cr och Ti/Zr initieras av lokalt förhöjd pH vid katodiska intermetalliska platser I aluminiumlegeringens mikrostruktur. Utbredningen av den starka pH-gradientens uppkomst över katodiska intermetalliska (IM) platser av mikrostrukturen påverkas av dess aktivitet som i sin tur beror på dess kemiska sammansättning, storlek, och rumslig fördelning. Ytans reaktivitet påverkas dessutom av dess förbehandling. Rollen av mikrostrukturens egenskaper på den förhöjda pH-gradienten och efterföljande initiering av lokal omvandlingsbeläggning återstår att förstå. För att komplettera detta kunskapsgap har Al-Si-Fe och Al-Si-Cu-Fe modellgjutlegeringar utformats. Cerium-baserade behandlingar för omvandlingsbeläggning med standardparametrar tillämpas för undersökning av mikrostrukturens påverkan. Effekten av fyra olika ytförbehandlingar på topografiska och elektrokemiska egenskaper har dessutom undersökts med lokaliserade metoder och har korrelerats med observationer vid depositionsexperient för att bevisa ytreaktivitet. I denna studie har det visats att de fyra ytförbehandlingarna – polering, NaOH, NaOH-HNO3, NaOH-H2SO4 – aktiverar ytan hos legeringar innehållande Fe-rika intermetaller och Cu-rika intermetaller på olika vis. Ytförbehandlingen med NaOH-HNO3 visades vara skadligast för ytans reaktivitet eftersom förbehandlingen resulterade i passivering av IM och en drastisk sänkning av dess volta-potential. Den bästa förbehandlingen för Al-Si-Fe-legeringen visades vara med NaOH-etsning. I Al-Si-Cu-Fe-legeringens fall, var förbehandling där ett betningssteg (antingen med H2SO4 eller HNO3) tillämpades följt av etsning med NaOH, aktiverades ytan av IM mer än med andra förbehandlingar på grund av selektiv korrosion av Al och Cu-återdeposition. Utbredningen av Cu-återdeposition observerades vara störst när ytor var betade med HNO3-lösning och depositionens kinetik var som hastigast vid förbehandling med NaOH-HNO3. I den gjutna Al-Si-Cu-Fe-legeringen observerades lokaliserade depositionerna att bildas endast på starkt katodiska Cu-rika IM. Storleken (ytarea) på de Cu-rika IM korrelerade linjärt med den laterala depositionsytan samt med spridning i z-riktning. Det visade sig att pH-gradienten som uppkom via syrereduktionsreaktionen nära IM är väldigt lokal och påverkar ej pH-gradienter vid närliggande Cu-rik IM. Storleken hade ingen anmärkningsvärd verkan på utbredningen av deposition på Cu-rik IM, men stora Cu-rika IM visade sig aktiveras snabbare för depositionsreaktion än små Cu-rika IM. När depositionens framfart över grov och fin mikrostruktur i gjuten Al-Si-Cu-Fe följdes kvantitativt vid ökande omvandlingsbeläggningstid 0,5h; 1h och 2h, så observerades att stora Cu-rika IM i den grova legeringen påbörjade depositionen snabbare än små Cu-rika IM. Depositionsmekanismen på Fe-rika IM visades vara specifik för sammansättning. I gjutgodset med stora Fe-rika β-Al5FeSi IM visades lokaliserad deposition initieras vid gränsen av IM vilket förklaras baserat på Si-halt i IM sammansättning, som har väldigt hög resistivitet. I en annan Fe-rik IM, dock av mycket mindre storlek, som hade lägre Si-halt och rikare med Fe, en lokaliserad deposition var observerad över hela IM. aluminium alloys cast Al-Si alloys conversion coating treatment cerium localized deposition surface pre-treatments microstructure SEM FIB-SEM AFM-SKPFM aluminiumlegeringar gjutna Al-Si legeringar omvandlingsbeläggningar cerium lokaliserad deposition ytförbehandlingar microstruktur SEM FIB-SEM AFM-SKPFM Metallurgy and Metallic Materials Metallurgi och metalliska material

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