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1	Effets de composition et de morphologie sur la mouillabilité de revêtements sol-gel nanocomposites / Composition and morphology effets on the wettability of sol-gel nanocomposite coatings Holtzinger, Claire 22 March 2013 (has links) Des revêtements sol-gel nanocomposites TiO2-SiO2 ont été réalisés à partir de mélanges d'une suspension nanocristalline de TiO2 anatase et de sols polymériques de silice. Ces revêtements présentent une superhydrophilie naturelle, persistante et photo-régénérable. La présence de charges localisées aux interfaces granulaires TiO2-SiO2 est une des hypothèses permettant d'expliquer cette superhydrophilie naturelle. Toutefois des effets de morphologie (rugosité, porosité de surface) sont également connus pour influencer le mouillage. Des études ont été menées pour mettre directement en évidence l'effet intrinsèque des interfaces granulaires. Les études se sont recentrées sur l'effet extrinsèque de paramètres morphologiques susceptibles d'influencer la mouillabilité des revêtements nanocomposites selon des modèles thermodynamiques des surfaces connus. De nouveaux protocoles de synthèse par voie sol-gel ont été mis au point afin d'analyser i/ en quoi la superhydrophilie naturelle et photo-induite des revêtements TiO2-SiO2 pouvait être influencée par des effets de morphologie et de composition, et ii/ en quoi une exacerbation de ces effets via des structurations artificielles pouvaient encore accroître la superhydrophile de surface. Une extrapolation de ces protocoles a également permis d'étudier des revêtements superhydrophobes. / Sol-gel TiO2-SiO2 nanocomposites coatings have been deposited from a suspension of anatase TiO2 nanocristallites mixed with different polymeric silica sols. These coatings show a natural and persistent superhydrophilicity, which can also be photo-regenerated. This outstanding property can probably be explained by electrical charges localized at TiO2-SiO2 granular interfaces. Yet, some morphological features (roughness, surface porosity) may also influence wetting properties. Studies have firstly been carried out to directly evidence the intrinsic effect of those electrical charges. The studies have then been focused on the extrinsic effect of morphological parameters than can influence the composite wettability, according to thermodynamic models. New sol-gel protocols were carried out to better understand in which extent i/ the natural and photo-induced wetting properties of composite coatings may be influenced by composition and morphological features, and ii/ artificial structuration of the coating surface may enhance their superhydrophilicity. Those structuration protocols have been extrapolated to the study of superhydrophobic coatings. Superhydrophilie Superhydrophobie Composites TiO2-SiO2 Revêtements sol-gel Morphologie Superhydrophilicity Superhydrophobicity TiO2-SiO2 composites Sol-gel coatings Morphology
2	Příprava a vlastnosti hybridních vrstev oxidu titaničitého a křemičitého / Photocatalytic properties of hybrid titania-silica layers Sekerová, Kateřina January 2013 (has links) This diploma thesis is focused on the preparation of hybrid titania-silica layers. Titanium tetraisopropoxide and tetraethyl orthosilicate with Levasil were used as the precursors for TiO2 and SiO2 synthesis, respectively. The layers were deposited on substrates by material printing. Furthermore, this work is focused on the study of the rheological properties of TiO2-SiO2 sol and characterization of prepared films by XRD, SEM, ellipsometry, AFM, pencil hardnes test, optical microscopy. Optical properties were also characterized by transmitance and reflectance measurement and the functionality of these layers was demonstrated by a stearic acid degradation experiment.
3	Photocatalytic Antimicrobial And Self-cleaning Properties Of Titania-silica Mixed Oxide Thin Films Korkmaz Erdural, Beril 01 November 2012 (has links) (PDF) In this study photocatalytic antibacterial and self-cleaning activities of TiO2-SiO2 thin films as a function of TiO2/SiO2 ratios were investigated. TiO2-SiO2 mixed oxides were synthesized by sol-gel method and coated over soda-lime glass plates by dip coating technique. Escherichia coli was used as a model microorganism for the photocatalytic antibacterial tests. Degradation rate of methylene blue (MB) molecules was used to characterize photocatalytic self-cleaning activities of thin film surfaces. The maximum antibacterial activity was achieved over 92 wt% SiO2 containing thin films. However, when the SiO2 content exceeds 92 wt%, photocatalytic antibacterial activity decreased considerably, which was explained by the dilution of TiO2 phase and inaccessibility of TiO2. Increase in photocatalytic antibacterial activity was attributed to increases in the relative surface area, roughness, hydroxyl (OH-) groups and bacterial adhesion. The favored bacterial adhesion enhanced direct contact of bacteria with TiO2 particles and surface reactive oxygen species. The highest initial decomposition rate of MB was obtained for 60 wt% SiO2 and the activity decreases as SiO2 concentration increases. The increase in photocatalytic activity by the SiO2 addition can be explained by the increase of the amount of MB per unit area of TiO2-SiO2 thin films. Different adsorption capability of thin films against MB molecule and E. coli cell was explained as the first reason why the antibacterial and self-cleaning activities reached their maximum values at different SiO2 ratios. The second reason could be related with the different control mechanisms of self-cleaning and antibacterial activities by different textural and surface properties. QD Surface Chemistry 506
4	Enzyme Immobilization On Titania-silica-gold Thin Films For Biosensor Applications And Photocatalytic Enzyme Removal For Surface Patterning Cinar, Merve 01 September 2009 (has links) (PDF) The aim of this study was to investigate the viability of patterning by immobilization, photocatalytic removal, and re-immobilization steps of the enzyme on photocatalytically active thin films for biosensor fabrication purposes. For this aim, TiO2-SiO2-Au sol-gel colloids were synthesized and deposited on glass substrates as thin films by dip coating. Cysteamine linker was assembled on gold nanoparticles to functionalize thin films with amine groups for immobilization of model enzyme invertase. Effect of immobilization temperature, enzyme concentration of the immobilization solution and immobilization period on invertase immobilization were investigated. The immobilized invertase activity was found independent from the immobilization temperature in the range tested (4oC-room temperature). The optimum enzyme concentration and period for immobilization was determined as 10&micro / g/ml and 12 hours respectively. The resulting invertase immobilized thin films showed high storage stability retaining more that 50% of their initial activity after 9 weeks of storage. Photocatalytic enzyme removal and re-immobilization studies were carried out by irradiating the invertase immobilized thin films with blacklight. Upon 30 minutes of irradiation, immobilized invertase was completely and irreversibly inactivated. Initial immobilized invertase activity (before the irradiation) was attained when invertase was re-immobilized on thin films that were irradiated for 5 hours. Thus it was inferred that with sufficient exposure, enzymes can be completely removed from the surfaces which makes the re-immobilization possible. The possibility of enzyme removal with photocatalytic activity and re-immobilization can pave the way to new patterning techniques to produce multi-enzyme electrode arrays. TP Biotechnology 248.13-248.65
5	Preparation And Characterization Of Titania-silica-gold Thin Films Over Ito Substrates For Laccase Immobilization Eker, Zeynep 01 September 2009 (has links) (PDF) The aim of this study was to immobilize the redox enzyme laccase over TiO2-SiO2-Au thin film coated ITO glass substrates in order to prepare electrochemically active surfaces for biosensor applications. Colloidal TiO2-SiO2-Au solution was synthesized by sol-gel route and thin film was deposited onto the substrates by dipcoating method. The cysteamine was utilized as a linker for immobilization of enzyme covalently through gold active sites. Preliminary studies were conducted by using invertase as model enzyme and Pyrex glasses as substrates. The effect of immobilization parameters such as immobilization temperature, concentration of enzyme deposition solution, immobilization time for laccase were examined. Leakage studies were conducted and storage stability of immobilized laccase was determined. Highest laccase activity was achieved when immobilization was performed with 50 &micro / g/ml solution at 4&deg / C for 2 hours. Laccase activity decreased after 4 hours of impregnation in enzyme solution. Laccase leakage was observed in the first usage of substrates and 55% activity decrease was determined in the subsequent use which might be attributed to the presence of uncovalently adsorbed enzyme on the fresh samples. In air and in buffer storage stabilities were also tested. It was found that the activity of samples almost vanished after 6 days regardless of storage conditions. Both enzymes had more activity on ITO substrate. TP Biotechnology 248.13-248.65
6	Towards Environmentally Benign Wastewater Treatment - Photocatalytic Study of Degradation of Industrial Dyes Nuramdhani, Ida January 2011 (has links) Pollution created by textile dyeing operations attracts significant attention because an effluent containing a complex mixture of coloured and potentially toxic compounds can be released with the discharged water. Developing dyes and dyeing conditions to reduce the amount of residual dye contained in any effluent has been one of many approaches to minimise this environmental impact. However, the presence of coloured discharge cannot be totally eliminated using only this strategy. Thus, development of efficient post-dyeing wastewater treatment methods capable of removing coloured products from the water is of paramount importance. TiO2-mediated photocatalytic degradation of organic dye molecules via oxidation is the focus of the study reported in this thesis. TiO₂ significantly increases the rate of photodegradation of a wide range of organic dyes under mild operating conditions, and is able to mineralise a wide spectrum of organic contaminants. TiO₂ is also one of the very few substances appropriate for the industrial applications. One of primary aims of this thesis is to test the hypothesis that augmenting standard TiO₂ photocatalysts with Au nanoparticles could increase performance of a catalyst, while immobilizing TiO₂ on SiO₂ support may improve the cost of the process efficiency, i.e. more photocatalytic degradation per particle of TiO₂. Combining TiO₂ doped with gold nanoparticles on SiO₂ support has the potential to provide the highest photocatalytic ability at the lowest cost. The first half of the thesis is concerned with establishing and optimizing experimental conditions for monitoring photodegradation via UV-Visible spectroscopy. Effects of various conditions such as temperature, sequence of addition of reagents, exposure to light vs. experiments in dark, sampling methods, and the use of quenching agent were examined. The main conclusions from this study are that light-induced photodegradation using titanium dioxide nanoparticles catalysts is comparatively more efficient than purely chemical catalytic (e.g. non-light mediated) degradation, even if the latter is performed at elevated temperature. Further, the rate of dye degradation is affected considerably by the parameters of the system. The degradation rate depends strongly on the pH of the solution, due to charges on both the catalyst surface and in the dye. In general, at pH ≤ 6.8, which is the zero charge point for TiO₂, reactions proceeded faster than those at higher pH. Six dyes from four different classes of dyes used in industry were used in this study, and all showed different photodegradation behaviour. The second half of thesis tests the photocatalytic abilities of various TiO₂-based catalysts: pure TiO₂ (commercial and custom-made in our laboratory), TiO₂-supported gold nanoparticles (Au/TiO₂), SiO₂-supported TiO₂ (TiO₂/SiO₂), and SiO₂-supported Au/TiO₂. The best photocatalytic performance was observed for the custom-made TiO₂ code-named as e-TiO₂, which was synthesized using the sol-gel method in dry ethanol. TiO₂-supported Au55 nanoparticles showed a similar level of catalytic ability but are significantly more expensive. It was observed that dye adsorption played a significant role in the case of SiO₂-immobilized photocatalysts. titanium dioxide Au/TiO2 TiO2/SiO2 photocatalytic degradation wastewater treatment textile dyes
7	Кислотные и электроповерхностные свойства гидратированной поверхности систем TiO2-SiO2 по данным ЭПР рН-чувствительных зондов : автореферат диссертации на соискание ученой степени кандидата химических наук : 1.4.4 Антонов, Д. О. January 2022 (has links) No description available. АВТОРЕФЕРАТЫ ФИЗИЧЕСКАЯ ХИМИЯ ОКСИДЫ ТИТАНА ОКСИДЫ КРЕМНИЯ 1.4.4
8	Кислотные и электроповерхностные свойства гидратированной поверхности систем TiO2-SiO2 по данным ЭПР рН-чувствительных зондов : диссертация на соискание ученой степени кандидата химических наук : 1.4.4 Антонов, Д. О. January 2022 (has links) No description available. ДИССЕРТАЦИИ ФИЗИЧЕСКАЯ ХИМИЯ ОКСИДЫ КРЕМНИЯ ОКСИДЫ ТИТАНА 1.4.4
9	Revêtements sol-gel TiO2-SiO2 naturellement super-hydrophiles visant à développer des surfaces à nettoyabilité accrue Houmard, M. 13 March 2009 (has links) (PDF) L'ajustement adéquat de formulations sol-gel et de leurs compositions en TiO2 et SiO2 a conduit à des revêtements composites TiO2-SiO2 naturellement super-hydrophiles et présentant une persistance optimale de leur super-hydrophilie en l'absence de rayonnement UV. Cette persistance optimale est également corrélée à une facilité accrue de photo-régénération de la super-hydrophilie, par une courte exposition UV, lorsque cette propriété finit par disparaître au cours d'un vieillissement prolongé. Des adaptations spécifiques des protocoles expérimentaux montrent également qu'il est possible d'extrapoler ces performances de mouillage à toutes sortes de supports, non seulement des supports en acier inoxydable, mais aussi des supports à faible tenue thermique (par exemple des polymères ou textiles peuvent être envisagés). Des études physico-chimiques et morphologiques indiquent que, si des effets de porosité et rugosité de surface ne sont pas à exclure, les performances de mouillage des revêtements composites découlent probablement avant tout d'effets d'interfaces granulaires TiO2-SiO2. Cette hypothèse semble en partie confirmée par des premières mesures de forces superficielles par AFM en milieu aqueux et de mouillabilité à pH variable. Les travaux mettent également en évidence un parallèle entre la lipophilie et l'hydrophilie de surface de différents films sol-gel. Bien que de façon générale ce parallèle ne plaide pas en faveur d'une nettoyabilité accrue de la surface revêtue, des tests de nettoyabilité statique et dynamique montrent finalement que, du fait de leur forte composante polaire d'énergie de surface, les revêtements composites super-hydrophiles favorisent un dégraissage aisé des surfaces polluées à l'huile minérale ou végétale, ce qui valide définitivement le concept de surfaces à nettoyabilité accrue. Des approches théoriques ont également été régulièrement proposées et permettent de justifier en grande partie les comportements de mouillage à l'eau ou à l'huile observés sur les revêtements faisant l'objet de ce travail. Super-hydrophilie Composites TiO2-SiO2 Revêtements sol-gel Surfaces Nettoyabilité accrue
10	Effets de composition et de morphologie sur la mouillabilité de revêtements sol-gel nanocomposites Holtzinger, Claire 22 March 2013 (has links) (PDF) Des revêtements sol-gel nanocomposites TiO2-SiO2 ont été réalisés à partir de mélanges d'une suspension nanocristalline de TiO2 anatase et de sols polymériques de silice. Ces revêtements présentent une superhydrophilie naturelle, persistante et photo-régénérable. La présence de charges localisées aux interfaces granulaires TiO2-SiO2 est une des hypothèses permettant d'expliquer cette superhydrophilie naturelle. Toutefois des effets de morphologie (rugosité, porosité de surface) sont également connus pour influencer le mouillage. Des études ont été menées pour mettre directement en évidence l'effet intrinsèque des interfaces granulaires. Les études se sont recentrées sur l'effet extrinsèque de paramètres morphologiques susceptibles d'influencer la mouillabilité des revêtements nanocomposites selon des modèles thermodynamiques des surfaces connus. De nouveaux protocoles de synthèse par voie sol-gel ont été mis au point afin d'analyser i/ en quoi la superhydrophilie naturelle et photo-induite des revêtements TiO2-SiO2 pouvait être influencée par des effets de morphologie et de composition, et ii/ en quoi une exacerbation de ces effets via des structurations artificielles pouvaient encore accroître la superhydrophile de surface. Une extrapolation de ces protocoles a également permis d'étudier des revêtements superhydrophobes. [SPI:OTHER] Engineering Sciences/Other Superhydrophilie Superhydrophobie Composites TiO2-SiO2 Revêtements sol-gel Morphologie

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