Global ETD Search

321	Tooth-Colored CAD/CAM Materials for Application in 3-Unit Fixed Dental Prostheses in the Molar Area: An Illustrated Clinical Comparison Rauch, Angelika, Hahnel, Sebastian, Günther, Elena, Bidmon, Wolfgang, Schierz, Oliver 20 April 2023 (has links) The aim of this study was to compare the clinical properties of tooth-colored computer-aided design/computer-aided manufacturing (CAD/CAM) materials for the fabrication of a 3-unit fixed dental prostheses (FDPs) in the same clinical scenario. A 53-year-old female patient was supplied with a 3-unit FDP to replace a second premolar in the upper jaw. Restorations were fabricated from 3 mol%, 4 mol%, and 5 mol% yttrium oxide zirconia, zirconia with translucency gradient, indirect composite resin, polyetheretherketone (PEEK), and polyetherketoneketone (PEKK). Milling time, weight, and radiopacity were investigated. Esthetics were examined following the US Public Health Service criteria (USPHS). The milling time for zirconia was twice as high as for the indirect composite resin, PEEK, or PEKK. The latter materials had a weight of 2 g each, while zirconia restorations yielded 5 g. Zirconia presented intense radiopacity. PEEK and PEKK required veneering and an opaquer was applied to the PEKK framework. All FDPs showed acceptable esthetics. PEEK and PEKK restorations were featured by a grayish shimmering. A variety of CAD/CAM materials are available to fabricate 3-unit FDPs with esthetically acceptable results. In the esthetic zone, PEEK and PEKK require veneering and an opaquer might be applied. Milling time, weight, and radiopacity were relatively high for zirconia FDPs. info:eu-repo/classification/ddc/600 ddc:600
322	Size-effect of pd nanoparticles supported on zro2 in the catalytic reduction of no by h2 Joh, Young Woo 01 May 2011 (has links) Size-selected Pd nanoparticles were synthesized by the reverse-micelle encapsulation method and deposited on a ZrO2 support for the catalytic NO reduction by H2. All of our samples were found to be highly selective, but a significant size effect was not seen for Pd nanoparticles of between 1.2 nm and 5.5 nm. Ultra-small Pd clusters of less than 1 nm were found to be much less active, and are assumed to be affected by an encapsulation effect of the support. Catalyst activity was comparable to that of literature, and is applicable to H2-SCR research. Physics
323	Synthesis And Characterization Methods Of Palladium-Doped Ceria-Zirconia Compounds Graves-Brook, Melissa Kaye 06 August 2005 (has links) The main automotive catalytic media, precious metal-doped ceria-zirconia oxides, fundamental system character is unknown. Understanding the catalytic system properties should allow for the production of an optimal model catalyst. This goal of this study is to gain understanding of ceria-zirconia-palladium systems and to determine a reproducible method for preparing catalysts with minimal surface-carbon. This study investigates ceria-zirconia-palladium catalyst preparation via aqueous chemistry methods and a sputter deposition technique for doping ceria-zirconia oxide mixtures. Prepared catalysts are characterized by X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). XPS allows the surface species, after catalyst doping and annealing, to be evaluated. Prepared catalyst EM analysis allows for surface morphology and particle characteristic evaluation. Prepared catalysts are exposed to UHV conditions, palladium sputtered-coated, and annealed at various temperatures. Temperature dependency is observed in both percentage of carbon, metal, and oxygen species present. This study led to a reproducible, low-carbon content, doping method for use in future pollutant reaction studies. catalytic converter Transmission Electron Spectroscopy ceria zirconia palladium synthesis methods X-ray Photoelectron Spectroscopy Scanning Electron Spectroscopy
324	Benägenheten till missfärgning beroende på ytbehandling på högtranslucent zirkonia : En in vitro-studie. / Tendency of Discoloration due to Surface Treatment on High-Translucent Zirconia : An In Vitro Study. Thörner, Emma, Sylwestrzak, Gabriela January 2024 (has links) Syfte: Syftet med föreliggande studie är att undersöka högtranslucent zirkonias benägenhet till missfärgning beroende på ytbehandling och hur detta påverkar materialets färgstabilitet över tid. Material och metod: Totalt frästes och sintrades 40 cylindriska provkroppar av högtranslucent zirkonia. Provkropparna delades slumpmässigt in i grupp G (glansbrända provkroppar) och grupp P (mekaniskt polerade provkroppar). Ytbehandling utfördes genom mekanisk polering eller glansbränning. Därefter utsattes provkropparna för vätskeförvaring i svart kaffe eller svart te under 288 timmar. Provkropparna mättes med en dental spektrofotometer efter 72, 144, 216 och 288 timmar. Mätningarna utfördes tre gånger centralt på varje provkropp. Mätvärdena Lch och ΔEab användes för att beskriva och analysera eventuell missfärgning och färgskillnad hänvisat till NBS-klassificering. Resultat: Det fanns inte någon signifikant skillnad vad gäller missfärgning på högtranslucent zirkonia. Detta var oberoende ytbehandling och förvaring i svart kaffe eller svart te, under en tidsperiod som motsvarade ett års oral exponering. De mekaniskt polerade provkropparna som förvarades i svart te uppvisade störst färgskillnad, det högsta ΔE-värdet, efter 288 timmars förvaring. Resultatet visade på en liten färgförändring enligt NBS-klassificeringen. Slutsats: Ytbehandling genom polering eller glansbränning ger bra egenskaper när det gäller motstånd mot missfärgning. En glansbränd yta visar en tendens att inte påverkas av missfärgning lika mycket som en mekaniskt polerad yta. / Purpose: The purpose of the present study is to investigate the tendency of highly translucent zirconia to discolour depending on surface treatment and how this affects the color stability of the material over time. Material and method: A total of 40 cylindrical specimens of high translucent zirconia were milled and sintered. The specimens were randomly divided into group G (glazed specimens) and group P (mechanically polished specimens). Surface treatments were performed by mechanical polishing or glazing. Subsequently, the specimens were subjected to liquid storage in black coffee or black tea for 288 hours. The specimens were measured using a dental spectrophotometer after 72, 144, 216, and 288 hours. The measurements were performed three times centrally on each specimen. The Lch and ΔEab values were used to describe and analyze any discoloration and color difference referred to NBS classification. Results: There was no significant difference in discoloration of high-translucent zirconia. This was independent of surface treatment and storage in black coffee or black tea, for a period equivalent to one year of oral exposure. The mechanically polished specimens stored in black tea showed the highest ΔE value (color difference) after 288 hours of storage. However, the results showed a slight change according to the NBS classification. Conclusion: Surface treatment by polishing or burnishing gives good properties in terms of resistance to discoloration. A burnished surface shows a tendency not to be affected by discoloration as much as a mechanically polished surface. Dental materials High translucency zirconia Discoloration Spectrophotometer Surface treatment. Dentala material Högtranslucent zirkonia Missfärgning Spektrofotometer Ytbehandling. Dentistry Odontologi
325	Färgstabiliteten hos manuellt infiltrerad hög-translucent zirkonia efter åldring i drycker med lågt pH-värde / The Color Stability of Manually Infiltrated High Translucent Zirconia after Aging in Beverages with Low pH-Value Linnstrand, Emma, Akhtar, Aleena January 2024 (has links) Syftet: Syftet med föreliggande studie var att undersöka färgstabiliteten hos manuellt infärgad hög-translucent zirkonia efter åldring i drycker med lågt pH-värde (vin och Coca Cola) och vatten. Material och metod: I studien användes 30 provkroppar i hög-translucent zirkonia. Provkropparna frästes fram i runda diskar med måtten 6 mm i diameter och 3 mm i tjocklek och färgades in manuellt med infiltreringsvätska genom doppteknik och därefter skedde sintring. Provkropparna förvarades i rött vin, Coca Cola eller destillerat vatten i 12 dagar. Färgkoordinaterna Lab* mättes genom spektrofotometer före (kontrollgrupp) och efter förvaring i respektive vätska. Medelvärdet av Lab* registrerades och färgskillnaderna (ΔEab, NBS) beräknades. Resultatet analyserades med Fisher՚s exact test samt One-way ANOVA, Tukey’s test med signifikansnivån α=0,05. Resultat: I jämförelse mellan grupperna hade gruppen som vinförvarats högst medelvärde i färgskillnad följt av vatten och Coca Cola. Färgskillnaden för gruppen som vinförvarats var kliniskt icke-acceptabel och visade en statistiskt signifikant skillnad jämfört med vatten och Coca Cola. Ingen statistisk signifikant skillnad observerades mellan de resterande grupperna vatten och Coca Cola. Signifikanta skillnader för färgskillnaden, ΔEab, observerades mellan kontrollgruppen mot övriga grupper för samtliga parametrar L* a* b* med p-värde<0,001 efter åldring i de olika dryckerna. Slutsats: Färgstabilitet hos manuellt infärgad hög-translucent zirkonia påverkas av åldring i drycker med lågt pH-värde såsom vin och Coca Cola, där vin påverkar mer än Coca Cola och vatten. Hög-translucent zirkonia som förvarats i vin uppvisar en rödare ton medan förvaring i Coca Cola uppvisar en gulare ton. / Purpose: This study investigated the color stability of manually infiltrated high translucent zirconia after immersion in beverages with low pH-value (wine and Coca Cola) and water. Material and method: 30 specimens of high translucent zirconia were prepared. The specimens were milled into round discs and colored manually with infiltration liquid before sintering and were stored in red wine, Coca Cola, or distilled water for 12 days. The color coordinates Lab* were measured by spectrophotometer before and after storage in the specific beverage. The mean value of Lab* was recorded and the color differences (ΔEab, NBS) were calculated. The results were analyzed with Fisher's exact test and One-way ANOVA, Tukey's test with the significance level α=0.05. Results: In comparison between the groups, the wine group had the highest mean value in color difference followed by water and Coca Cola. Results from wine storage showed a statistically significant difference compared to water and Coca Cola which was clinically non-acceptable. No statistical significant difference was observed between the remaining groups. Conclusion: Color stability of manually colored high translucent zirconia is affected by aging in beverages with a low pH-value such as wine and Coca Cola, where wine affected more as compared to Coca Cola and water. High translucent zirconia stored in wine exhibited a redder tone, while storage in Coca Cola exhibited a yellower tone. Acidic drinks color difference color stability high translucent zirconia infiltration Infiltrering hög-translucent zirkonia färgstabilitet färgskillnad sura drycker. Dentistry Odontologi
326	Détermination des contraintes résiduelles dans les matériaux céramiques pour SOFC : mesures multi-échelles et influence des cycles d’oxydo-réduction / Determination of residual stresses in ceramic materials of SOFC : multi-scale measurements and oxido-reduction influence Villanova, Julie 08 December 2010 (has links) Les piles à combustible Solid Oxide Fuel Cell sont des systèmes de production d’électricité. Une cellule élémentaire est un multicouche constitué de matériaux céramiques et de métal. Elles sont très sensibles aux contraintes mécaniques générées lors des cycles thermiques et d’oxydo-réduction, limitant leur durée de vie.Ce travail a porté sur la détermination expérimentale des contraintes résiduelles dans des cellules SOFC à anode support en fonction des sollicitations du système. Parallèlement à des mesures in-situ en température, une approche multi-échelles a été développée pour évaluer les hétérogénéités de contraintes dans l’électrolyte liées à la forte anisotropie élastique de la zircone yttriée qui le constitue. Différentes techniques ont été mise en œuvre afin de couvrir les 3 ordres de contraintes. Les mesures à l’échelle macroscopique ont été effectuées par diffraction de rayons X de laboratoire (méthode des sin²(Ψ)). La microdiffraction de rayonnement synchrotron en mode faisceau blanc et monochromatique a permis, après un important travail d’amélioration du protocole de mesure et d’analyse, de déterminer les tenseurs complets de contraintes et déformations grain à grain dans l’électrolyte. Les déformations intra-granulaires ont été évaluées par une technique d’EBSD.Les résultats obtenus ont permis d’analyser les mécanismes principaux qui régissent les évolutions de contraintes dans l’électrolyte. Des hétérogénéités de contraintes entre grains liées à leurs orientations cristallographiques ont été mises en évidence. Au-delà du problème des SOFC, les techniques mises en œuvre ouvrent la voie aux validations expérimentales des modèles mécaniques poly-cristallins. / The Solid Oxide Fuel Cells (SOFC) are high-performance electrochemical devices for energy conversion. A single cell is composed of layers made of different ceramic materials and metal. The mechanical integrity of the cell is a major issue during its lifetime. Damage of the cells is mainly due to the high operating temperature, the “redox” behavior of the anode and the brittleness of the involved materials. In this work, residual stresses in the electrolyte of a planar anode-supported SOFC have been experimentally measured for different treatments of the cell. In situ analysis at various temperatures has been performed. A multi-scale approach has been developed to study the expected strain-stress heterogeneities in the electrolyte due to the strong elastic anisotropy of the involved material (yttria-stabilized zirconia). Different techniques have been used to determinate stresses at the 3 different orders. Macroscopic stresses were studied using the Sin2 method on a laboratory X-ray goniometer. The complete strain and stress tensors of individual grains in the electrolyte have been determinate, after various improvements in the technique, by combining the diffraction of white and monochromatic micro beams produced by synchrotron source. Strain variation into grains has been evaluated using EBSD.This study has identified the main phenomena that control the stresses variation in the electrolyte layer. Stresses heterogeneities from grain to grain have been found and linked to the crystallographic orientation. Beyond SOFC’s considerations, the techniques that have been developed should permit an experimental validation of mechanical modeling to polycrystalline materials. Sofc Diffraction de Rayons X Rayonnement Synchrotron Contraintes Résiduelles Ebsd Zircone Yttriée Sofc X-Ray Diffraction Synchrotron Radiation Residual Stresses Ebsd Yttria-Stabilized Zirconia
327	Friction and lubrication behaviour of metal-on-metal and ZTA ceramic-on-CFR PEEK hip prostheses : friction and lubrication behaviour of metal-on-metal hip resurfacing and ZTA ceramic heads versus CFR PEEK cups with various diameters and clearances using serum-based lubricants with various viscosities Said, Assma Musbah January 2012 (has links) The natural hip joint in healthy people has a very low friction with very little (or no) wear. It works as a dynamically loaded bearing and is subjected to about 1-2 million cycles of loading per year. The applied load is the body weight which is tripled when walking and even higher during other activities such as running and jumping. Unfortunately these joints are not always healthy due to various causes such as fractures or disease leading to severe pain which necessitates joint replacement. Currently, the orthopaedic industries are working towards developing an ideal artificial hip joint with low wear, low friction, good lubrication, better fixation/stability and biocompatibility. Many different designs and materials have been investigated with some promising new implants which can be used depending on patients' individual need (large or small joint), activity and age. In this work, two types of artificial hip joints were tested for friction and lubrication studies: Metal-on-Metal (MoM) Biomet hip resurfacing ReCaps with large diameters (>35-60 mm) and different diametral clearances (~ 60-350 µm), and Zirconia Toughened Alumina (ZTA) heads against carbon-fibre-reinforced poly-ether-ether ketone (CFR PEEK) cups with different diameters (>35-60 mm) and diametral clearances (60-1860 µm). Seven serum-based lubricants with different viscosities were used with and without carboxy methyl cellulose (CMC) additions as gelling agent to increase viscosity depending on the CMC content. The maximum load applied was 2000 N for the stance phase with a minimum load of 100 N for the swing phase. A Pro-Sim friction hip simulator was used to investigate the frictional torque generated between the articulating surfaces so as the friction factor can be calculated. Stribeck analysis was then employed to assess the mode of lubrication. For the metal-on-metal hip resurfacing joints, the friction factors were in the range 0.03-0.151 and those for the ZTA ceramic heads versus CFR PEEK cups were in the range 0.006-0.32. Stribeck analyses showed mainly mixed lubrication for both MoM and ZTA ceramic-on-CFR PEEK joints. The experimental results were in agreement with most of the theoretical calculations suggesting mixed lubricating regimes at low viscosities and moving on to fluid film lubrication at higher viscosities. Joints with larger-diameters, lower clearances and lower surface roughness exhibited a higher lambda ratio suggesting improved lubrication. Viscosity flow curves for the serum-based lubricants having viscosity ≤ 0.00524 Pas showed non-linear relationship between viscosity and shear rate indicating non-Newtonian flow with pseudoplastic or shear-thinning characteristic, i.e. viscosity decreased as shear rate increased up to shear rates of ~ 1000 s⁻¹. However, at shear rates greater than 1000 s⁻¹ Newtonian flow became dominant with almost constant viscosity, i.e. a linear relationship between shear stress and shear rate. On the other hand, viscosity flow curves for the lubricants with viscosity ≥ 0.0128 Pas showed non-Newtonian behaviour up to a shear rate of 3000 s⁻¹ with shear-thinning characteristic. 620.1
328	Friction and lubrication behaviour of hip resurfacing metal-on-metal and ZTA ceramic on CFR peek implants with various diameters and clearances : friction and lubrication behaviour of hip resurfacing Co-Cr-Mo and zirconia toughened alumina ceramic heads against carbon fibre reinforced poly-ether-ether-ketone cups with various diameters and clearances have been investigated using serum-based lubricants Ehmaida, Mutyaa M. January 2012 (has links) Total hip joint prostheses made of CoCrMo heads versus ultra high molecular weight polyethylene (UHMWPE) cups have a limited lifetime, mainly due to the wear of the UHMWPE cups as a result of high friction between the articulating surfaces leading to osteolysis and implant loosening with revision surgery becoming inevitable in more active patients. Tribology plays an important role in developing the design, minimizing wear and reducing friction of hip joint prostheses in order to improve their long-term performance, with good lubricating properties. Metal-on-metal hip resurfacing prostheses have shown significantly lower wear rates compared with conventional metal-on-polyethylene implants and thus osteolysis is potentially reduced leading to increased lifetime of the prosthesis. Nevertheless, excessive wear of metal-on-metal joints leads to metal ion release, causing pseudo-tumours and osteolysis. An alternative approach to such bearings is the use of newly developed carbon fiber-reinforced poly-ether-ether-ketone (CFR PEEK) acetabular cups articulating against ceramic femoral heads due to their better wear resistance compared to UHMWPE. In this study, therefore, friction and lubrication properties of large diameter, as cast, Co-Cr-Mo metal-on-metal hip resurfacing implants with various diameters and clearances have been investigated and compared to those of the newly developed zirconia toughened alumina (ZTA) ceramic femoral heads articulating against carbon fiber reinforced poly-ether-ether-ketone (CFR PEEK) acetabular cups with different diameters and clearances. Friction hip simulator was used to measure frictional torque and then friction factors were calculated along with Sommerfeld numbers leading to Stribeck analysis and hence the lubricating mode was also investigated. This involved using lubricants based on pure bovine serum (BS) and diluted bovine serum (25 vol. %BS+75 vol. %distilled water) with and without carboxymethyl cellulose (CMC) (as gelling agent). Standard Rheometer was used to measure lubricant viscosity ranged from 0.0014 to 0.236 Pas at a shear rate of 3000 . Pure bovine serum, diluted bovine serum without CMC and with CMC (25BS+75DW+0.5gCMC and +1gCMC) showed pseudoplastic flow behaviour up to shear rate of ~139 s⁻¹ above which a Newtonian flow with significant increase in shear stress was observed. The viscosity flow curves for the 25BS+75DW+2gCMC, +3.5gCMC and +5gCMC showed only shear thinning up to a shear rate of 3000 . The shear rate application modified the flow behaviour of bovine serum from a pseudoplastic to a Newtonian flow depending on its purity and CMC content. This will cause a different frictional behaviour depending on joint diameter and clearance, as seen in this work. The experimental data were compared with theoretical iv predictions of the lubricating regimes by calculating theoretical film thickness and lambda ratio. The metal-on-metal Biomet ReCaps showed similar trends of Stribeck curves, i.e. friction factors decreased from ~0.12 to ~0.05 as Sommerfeld numbers increased in the range of viscosities ~0.001-0.04Pas indicating mixed lubrication regimes above which the friction factor increased to ~0.13 at a viscosity of 0.236Pas. The Stribeck analyses suggested mixed lubrication as the dominant mode with the lowest friction factor in the range ~0.09 - ~0.05 at the physiological viscosities of ~0.01 to ~0.04 Pas and that such joints can be used for more active patients as compared to the conventional total hip replacement joints with 28mm diameter. The Stribeck curves for all ZTA ceramic-on-CFR PEEK components illustrated a similar trend with BS fluids showing higher friction factors (in the range 0.22-0.13) than the diluted BS+CMC fluids (in the range 0.24-0.05). The friction tests revealed boundary-mixed lubrication regimes for the ZTA ceramic-on-CFR-PEEK joints. The results, so far, are promising and suggest clearly that the newly developed ZTA ceramic femoral heads articulating against CFR PEEK cups have similar friction and lubrication behaviour at optimum clearances to those of currently used metal-onmetal hip resurfacing implants at the range of viscosities 0.00612 to 0.155Pas. These results clearly suggest that the ZTA ceramic-on-CFR-PEEK joints showed low friction at the physiological viscosities of ~0.01Pas in the range ~0.1-0.05, suggesting that these novel joints may be used as an alternative material choice for the reduction of osteolysis. The result of this investigation has suggested that the optimum clearance for the 52mm diameter MOM Biomet ReCaps could be ~170μm. However, 48 and 54mm joints showed lower friction due to clearances to be >200μm. For the 52mm ZTA ceramic-on-CFR-PEEK joints the optimum clearance seems to be ≥ 630μm radial clearance. These results suggested that increased clearance bearings have the potential to generate low friction and hence no risk of micro- or even macro-motion for the ceramic-on-CFR-PEEK joints. This study found no correlation between theoretical predictions and experimental data for all metal-onmetal and ZTA ceramic-on-CFR PEEK bearings at the physiological viscosity (0.0127Pas). However, at lubricant viscosity of 0.00157Pas, the theoretical prediction of lubrication regime correlated well with the experimental data, both illustrating boundary lubrication. As expected, a decrease in viscosity resulted decrease in the film thickness. 617.5
329	Nonlinear Absorption Initiated Laser-Induced Damage in [Gamma]-Irradiated Fused Silica, Fluorozirconate Glass and Cubic Zirconia Mansour, Nastaran 08 1900 (has links) The contributions of nonlinear absorption processes to laser-induced damage of three selected groups of transparent dielectrics were investigated. The studied materials were irradiated and non-irradiated fused silica, doped and undoped fluorozirconate glass and cubic zirconia stabilized with yttria. The laser-induced damage thresholds, prebreakdown transmission, and nonlinear absorption processes were studied for several specimens of each group. Experimental measurements were performed at wavelengths of 1064 nm and 532 nm using nanosecond and picosecond Nd:YAG laser pulses. In the irradiated fused silica and fluorozirconate glasses, we found that there is a correlation between the damage thresholds at wavelength λ and the linear absorption of the studied specimens at λ/2. In other words, the laser-induced breakdown is related to the probability of all possible two-photon transitions. The results are found to be in excellent agreement with a proposed two-photon-initiated electron avalanche breakdown model. In this model, the initial "seed" electrons for the formation of an avalanche are produced by two-photon excitations of E' centers and metallic impurity levels which are located within the bandgaps of irradiated Si02 and fluorozirconate glasses, respectively. Once the initial electrons are liberated in the conduction band, a highly absorbing plasma is formed by avalanche impact ionization. The resultant heating causes optical damage. In cubic zirconia, we present direct experimental evidence that significant energy is deposited in the samples at wavelength 532 nm prior to electron avalanche formation. The mechanism is found to be due to formation of color centers (F+ or F° centers) by the two-photon absorption process. The presence of these centers was directly shown by transmission measurements. The two-photon absorption (2PA) process was independently investigated and 2PA coefficients obtained. The accumulated effects of the induced centers on the nonlinear absorption measurements were also considered and the 2PA coefficients were measured using short pulses where this effect is negligible. At room temperature, the color centers slowly diffuse out of the irradiated region. The density of these centers was monitored as a function of time. The initial distribution of the centers was assumed to have a Gaussian profile. For this model the diffusion equation was solved exactly and the diffusion constant obtained. nonlinear absorption fluorozirconate glass cubic zirconia γ-irradiated fused silica laser-induced damage Optical materials -- Defects. Lasers in physics.
330	Synthèse de matériaux nano structurés dans des solvants non aqueux / Synthesis of nanostructured materials in nonaqueous solvents Raciulete, Monica 29 October 2010 (has links) Dans la synthèse des matériaux catalytiques, deux aspects orientent en particulier les recherches actuelles: le contrôle de taille afin d’obtenir des nanoparticules finement divisées et le contrôle précis de la morphologie. Dans cette étude, nous avons utilisé les milieux non aqueux pour élaborer des matériaux catalytiques à base d’oxydes des métaux de transition (Ti, Zr, Mn). Trois méthodologies ont été employées pour la préparation des solides à base de TiO2. La synthèse dans les nitrates fondus dopés avec différents anions permet un boncontrôle des propriétés texturales des matériaux et de la nature des plans cristallins exposés. Les préparations utilisant le nitrate d’ammonium stabilisé avec des molécules organiques azotées conduit à des solides présentant des tailles et des formes de particules variables en fonction de la nature du stabilisateur. Le traitement à reflux dans des solvants organiques polaires conduit à l’obtention des supports TiO2 de grandes surfaces spécifiques. Pour la valorisation catalytique de ces matériaux, deux réactions appliquées au domaine de la photocatalyse ont été employées: la production d’H2 par déshydrogénation du méthanol etl’oxydation photocatalytique de l’acide formique. La réaction modèle de décomposition del’isopropanol a été utilisée comme test de caractérisation des propriétés acido-basiques de nossystèmes. La technique de nitrates fondus a été également appliqué avec succès pourl’obtention en une seule étape des catalyseurs supportés Mn-Zr et Mn-Ti. Ces catalyseursmontrent une excellente activité pour l’oxydation totale de composés organiques volatils(COV). / Two major challenges are particularly important for current research in the catalytic materials synthesis: preparation of finely divided particles and control of their shape. In this work we used non aqueous solvents to prepare catalytic materials containing transition metals oxides (Ti, Mn, Zr). Three techniques were applied to prepare TiO2-based solids. Reactions in molten alkali metal nitrates doped with different anions offered good control of textural properties and of the nature of exposed facets of nanocrystalline particles. Synthesis in molten ammonium nitrate stabilized with organic nitrogen-containing compounds provided TiO2 solids with variable size and shape as a function of stabilizer used. The reflux treatment in polar organic solvents leads to titania supports having high specific surface area. Two reactions from the field of photocatalysis were employed to valorize the obtained catalysts: H2 production by methanol dehydrogenation and photocatalytic oxidation of formic acid. Isopropanol decomposition has been used to determine the acid-base properties of the solids. Molten nitrate technique was then successfully applied in order to obtain in one-step highly dispersed Mn-Zr and Mn-Ti supported oxide catalysts. These systems showed excellent activity for the total oxidation of volatile organic compounds (VOC). Nitrates fondus Synthèse non aqueuse Zircone Titane Manganèse Photocatalyse Acide formique Isopropanol Oxydation des COV Nitrate melts Nonaqueous synthesis Zirconia Titanium Manganese Photocatalysis Formic acid Isopropanol VOC oxidation 541

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