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Investigação de reações fotoinduzidas sob luz visível em filmes mesoporosos de TiO2 puros e modificados com nanopartículas de ouro via espectrometria de massas / Investigation of photoinduced reactions under visible light in pure mesoporous TiO2 films and modified with gold nanoparticles via mass spectrometrySouza, Diego Holanda Pereira de 18 October 2018 (has links)
A titânia (TiO2) é um material amplamente estudado devido ao seu baixo teor de toxicidade, alta disponibilidade e por apresentar propriedades que permitem ser utilizado em uma variedade de aplicações fotocatalíticas. Sua atividade fotocatalítica frente à degradação de poluentes orgânicos, por exemplo, pode ser melhorada quando se prepara uma mistura de fases desse material, como o TiO2 P-25 apresenta. Entretanto, seu elevado valor de band gap lhe permite ser utilizado apenas quando incidido com radiação eletromagnética de alta energia (λ< 390 nm). O presente trabalho demonstra que quando TiO2 P-25 é sintetizado em forma de filmes mesoporosos, seu band gap é reduzido e passa a apresentar atividade fotocatalítica sob incidência de luz visível. Essa redução é atribuída ao tratamento térmico que é aplicado no processo de preparo do material. Para comprovar sua atividade na ausência de radiação UV, um estudo foi conduzido a partir da análise da taxa de fotodegradação das moléculas 2-naftol, alaranjado de metila e 2,4,6-trimercapto- 1,3,5-triazina por espectrometria de massas utilizando o composto hexafluorofosfato de amônio como padrão interno. A metodologia desenvolvida pode também ser aplicada para conduzir outros ensaios semi-quantitativos por espectrometria de massas. Foi observado que os filmes de TiO2 promovem fodo-oxidação de 2-naftol sob incidência de luz visível e na presença de gás oxigênio após 6 horas de reação. A fotodegradação do alaranjado de metila e do 2,4,6-trimercapto-1,3,5-triazina também foi confirmada, entretanto em uma taxa mais lenta. O processo também foi observado pela identificação de um subproduto da foto-oxidação do alaranjado de metila no espectro de massas e a partir do decaimento do seu pico de absorção em 468 nm por espectrofotometria no UV-Vis. Foi observado também que a titânia pode ter sua atividade fotocatalítica reduzida ao elevar o pH do meio. Além disso, foram produzidos filmes de titânia modificados com nanopartículas de ouro a partir da utilização de ácido tioglicólico como mediador e por drop casting. Os dois métodosformaram filmes homogêneos de nanopartículas de ouro sobre o TiO2, e estes foram utilizados nos ensaios fotocatalíticos. Entretanto, a presença do metal prejudicou a eficiência fotocatalítica da titânia inibindo sua atividade quando excitada com luz visível. Dessa forma, filmes puros de TiO2 P-25, além de ativos sob incidência de uma faixa espectral mais ampla da radiação solar, apresentam a vantagem de funcionarem como catalisadores heterogêneos de reações de fotodegradação de moléculas orgânicas podendo ser facilmente removidos do meio reacional ao final do processo. / Titania (TiO2) is a widely studied material due to its low toxicity, high availability and to have properties that allow it to be used in a variety of photocatalytic applications. Its photocatalytic activity against the degradation of organic contaminants, for instance, can be even improved when preparing a mixture of phases of this material, as TiO2 P- 25 presents. However, its high band gap allows it to be used only when affected by high energy electromagnetic radiation (λ< 390 nm). The present work demonstrates that when TiO2 P-25 is synthesized in the form of mesoporous films, its band gap is reduced, and it starts to present photocatalytic activity under visible light. This reduction is attributed to the heat treatment that is applied during the preparation process of the material. In order to verify its activity in the absence of UV radiation, a study was conducted based on the analysis of the photodegradation rate of 2-naphthol, methyl orange and 2,4,6-trimercapto-1,3,5-triazine molecules by mass spectrometry using the compound ammonium hexafluorophosphate as an internal standard. The developed methodology can also be applied to conduct other semiquantitative assays via mass spectrometry. It was observed that TiO2 films induced 2-naphthol photooxidation under visible light and in the presence of oxygen gas after 6 hours of reaction. Photodegradation of methyl orange and 2,4,6-trimercapto-1,3,5-triazine was also confirmed, yet at a slower rate. The process was also observed by the identification of a methyl orange photooxidation by-product in the mass spectrum and from the decay of its absorption peak at 468 nm by UV-Vis spectrophotometry. It was also observed that titania may have its photocatalytic activity reduced by raising the pH of the medium. Furthermore, it was also produced titania films modified with gold nanoparticles through use of thioglycolic acid as a mediator and by drop casting method. Both techniques formed homogeneous films of gold nanoparticles over TiO2, and their photocatalytic activity were also evaluated. Nevertheless, the presence of the metal impaired the photocatalytic efficiency of titania by inhibiting its activity when excited by visible light. All in all, pure TiO2 P-25 films work under incidence of a wider range of the solar spectrum and has also the advantage of functioning as heterogeneous catalysts for photodegradation reactions of organic molecules and can be easily removed from the reaction medium at the end of the process.
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Investigação de reações fotoinduzidas sob luz visível em filmes mesoporosos de TiO2 puros e modificados com nanopartículas de ouro via espectrometria de massas / Investigation of photoinduced reactions under visible light in pure mesoporous TiO2 films and modified with gold nanoparticles via mass spectrometryDiego Holanda Pereira de Souza 18 October 2018 (has links)
A titânia (TiO2) é um material amplamente estudado devido ao seu baixo teor de toxicidade, alta disponibilidade e por apresentar propriedades que permitem ser utilizado em uma variedade de aplicações fotocatalíticas. Sua atividade fotocatalítica frente à degradação de poluentes orgânicos, por exemplo, pode ser melhorada quando se prepara uma mistura de fases desse material, como o TiO2 P-25 apresenta. Entretanto, seu elevado valor de band gap lhe permite ser utilizado apenas quando incidido com radiação eletromagnética de alta energia (λ< 390 nm). O presente trabalho demonstra que quando TiO2 P-25 é sintetizado em forma de filmes mesoporosos, seu band gap é reduzido e passa a apresentar atividade fotocatalítica sob incidência de luz visível. Essa redução é atribuída ao tratamento térmico que é aplicado no processo de preparo do material. Para comprovar sua atividade na ausência de radiação UV, um estudo foi conduzido a partir da análise da taxa de fotodegradação das moléculas 2-naftol, alaranjado de metila e 2,4,6-trimercapto- 1,3,5-triazina por espectrometria de massas utilizando o composto hexafluorofosfato de amônio como padrão interno. A metodologia desenvolvida pode também ser aplicada para conduzir outros ensaios semi-quantitativos por espectrometria de massas. Foi observado que os filmes de TiO2 promovem fodo-oxidação de 2-naftol sob incidência de luz visível e na presença de gás oxigênio após 6 horas de reação. A fotodegradação do alaranjado de metila e do 2,4,6-trimercapto-1,3,5-triazina também foi confirmada, entretanto em uma taxa mais lenta. O processo também foi observado pela identificação de um subproduto da foto-oxidação do alaranjado de metila no espectro de massas e a partir do decaimento do seu pico de absorção em 468 nm por espectrofotometria no UV-Vis. Foi observado também que a titânia pode ter sua atividade fotocatalítica reduzida ao elevar o pH do meio. Além disso, foram produzidos filmes de titânia modificados com nanopartículas de ouro a partir da utilização de ácido tioglicólico como mediador e por drop casting. Os dois métodosformaram filmes homogêneos de nanopartículas de ouro sobre o TiO2, e estes foram utilizados nos ensaios fotocatalíticos. Entretanto, a presença do metal prejudicou a eficiência fotocatalítica da titânia inibindo sua atividade quando excitada com luz visível. Dessa forma, filmes puros de TiO2 P-25, além de ativos sob incidência de uma faixa espectral mais ampla da radiação solar, apresentam a vantagem de funcionarem como catalisadores heterogêneos de reações de fotodegradação de moléculas orgânicas podendo ser facilmente removidos do meio reacional ao final do processo. / Titania (TiO2) is a widely studied material due to its low toxicity, high availability and to have properties that allow it to be used in a variety of photocatalytic applications. Its photocatalytic activity against the degradation of organic contaminants, for instance, can be even improved when preparing a mixture of phases of this material, as TiO2 P- 25 presents. However, its high band gap allows it to be used only when affected by high energy electromagnetic radiation (λ< 390 nm). The present work demonstrates that when TiO2 P-25 is synthesized in the form of mesoporous films, its band gap is reduced, and it starts to present photocatalytic activity under visible light. This reduction is attributed to the heat treatment that is applied during the preparation process of the material. In order to verify its activity in the absence of UV radiation, a study was conducted based on the analysis of the photodegradation rate of 2-naphthol, methyl orange and 2,4,6-trimercapto-1,3,5-triazine molecules by mass spectrometry using the compound ammonium hexafluorophosphate as an internal standard. The developed methodology can also be applied to conduct other semiquantitative assays via mass spectrometry. It was observed that TiO2 films induced 2-naphthol photooxidation under visible light and in the presence of oxygen gas after 6 hours of reaction. Photodegradation of methyl orange and 2,4,6-trimercapto-1,3,5-triazine was also confirmed, yet at a slower rate. The process was also observed by the identification of a methyl orange photooxidation by-product in the mass spectrum and from the decay of its absorption peak at 468 nm by UV-Vis spectrophotometry. It was also observed that titania may have its photocatalytic activity reduced by raising the pH of the medium. Furthermore, it was also produced titania films modified with gold nanoparticles through use of thioglycolic acid as a mediator and by drop casting method. Both techniques formed homogeneous films of gold nanoparticles over TiO2, and their photocatalytic activity were also evaluated. Nevertheless, the presence of the metal impaired the photocatalytic efficiency of titania by inhibiting its activity when excited by visible light. All in all, pure TiO2 P-25 films work under incidence of a wider range of the solar spectrum and has also the advantage of functioning as heterogeneous catalysts for photodegradation reactions of organic molecules and can be easily removed from the reaction medium at the end of the process.
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Design of nanocatalysts supported on magnetic nanocomposites containing silica, ceria and titania / Desenvolvimento de nanocatalisadores suportados em nanocompósitos magnéticos contendo sílica, céria e titâniaLucas Lucchiari Ribeiro Vono 18 March 2016 (has links)
Magnetic separation has received a lot of attention as a robust, highly efficient and rapid catalyst separation technology. Many studies have focused on developing methodologies for the immobilization of catalytic active species, but the development of magnetic supports has been mainly limited to silica, polymer or carbon-coated magnetic nanoparticles (NPs). The design of magnetic nanocomposites and the incorporation of other oxides are highly welcome to broaden the application of this separation technology in the field of catalysis. In this context, studies of the thermal stability of silica-coated magnetite (Fe3O4@SiO2) were performed to evaluate the possibility of calcining it without losing the magnetic properties of the support. The calcination would permit the deposition of different oxides on the silica surface, such as ceria and titania. The calcined Fe3O4@SiO2 material preserved the core-shell morphology and magnetic properties, but increased its surface area six times. New magnetic supports were developed by using post-coating process for the deposition of ceria and titania onto silica-coated magnetite. Magnetically recoverable Rh, Pd and Ru nanocatalysts were prepared. The catalysts were employed in hydrogenation of cyclohexene, benzene or phenol and the study of the influence of each support on the catalytic activity was a main objective of this thesis. The catalysts were prepared by two different approaches: the impregnation and the sol-immobilization of pre-formed metal NPs. The colloidal metal NPs were prepared by reduction of metal salts and also by decomposition of organometallic complexes. Rhodium catalysts prepared by impregnation of rhodium(III) chloride and reduction with H2 showed some reproducibility issues that were surpassed by using NaBH4 or hydrazine as reducing agents. The preparation of catalysts by the immobilization of colloidal NPs is an interesting alternative to obtain reproducible and very active catalysts. Nanoparticles of Pd, Rh and Ru were prepared by an organometallic approach and immobilized on calcined Fe3O4@SiO2, Fe3O4@SiO2CeO2 and Fe3O4@SiO2TiO2. The elimination of the stabilizing agent leads to more active catalysts upon recycling. Rhodium catalysts supported on ceria support was the most active catalyst in the hydrogenation of cyclohexene (TOF 125,000 h-1). Palladium catalysts were the most selective catalyst for the hydrogenation of phenol to cyclohexanone, no matter the support used. The formation of cyclohexanol is enhanced with titania and the hydrodeoxygenation to produce cyclohexane occurred mainly with silica. / A separação magnética tem recebido muita atenção como uma tecnologia robusta, altamente eficiente e rápida para recuperar catalisadores sólidos após uso em reações em fase líquida. Muitos estudos têm focado nas metodologias para a imobilização de espécies cataliticamente ativas, mas o desenvolvimento de suportes magnéticos tem se limitado a nanopartículas magnéticas revestidas com sílica, polímeros ou carbono. O desenvolvimento de nanocompósitos magnéticos com a incorporação de outros óxidos é muito desejável para ampliar a aplicação dessa tecnologia de separação em catálise. Nesse contexto, estudos da estabilidade térmica de magnetita revestida com sílica (Fe3O4@SiO2) foram realizados para avaliar a possibilidade de calcina-la sem perder as propriedades magnéticas do suporte. Uma etapa de calcinação é necessária para a deposição de diferentes óxidos na superfície da sílica, tais como céria e titânia. O Fe3O4@SiO2 calcinado preservou a morfologia \"core-shell\" e as propriedades magnéticas, porém apresentou um aumentou de seis vezes na área superficial. Novos suportes magnéticos foram desenvolvidos pela deposição de céria e titânia sobre magnetita previamente revestida com sílica. Nanocatalisadores magneticamente recuperáveis de Rh, Pd e Ru foram preparados. Os catalisadores foram utilizados na hidrogenação de ciclo-hexano, benzeno ou fenol e o principal objetivo dessa tese foi o estudo da influência de cada suporte na atividade catalítica. Os catalisadores foram preparados de duas formas diferentes: impregnação-redução e imobilização de nanopartículas (NPs) metálicas pré-formadas. As NPs coloidais foram preparadas pela redução de sais metálicos e, também, pela decomposição de complexos organometálicos. Catalisadores de ródio preparados pela impregnação de cloreto de ródio(III) e redução com H2 mostraram alguns problemas de reprodutibilidade, que foram superados utilizando NaBH4 ou hidrazina como agentes redutores. A preparação de catalisadores pela imobilização de NPs coloidais é uma alternativa interessante para obter catalisadores reprodutíveis e muito ativos. Nanopartículas de Pd, Rh e Ru foram preparadas a partir de organometálicos e imobilizadas em Fe3O4@SiO2 calcinada, Fe3O4@SiO2CeO2 e Fe3O4@SiO2TiO2. A eliminação do agente estabilizante torna os catalisadores mais ativos durante os reusos. O catalisador de Rh sobre o suporte de céria foi o catalisador mais ativo na hidrogenação de ciclohexeno (TOF 125000 h-1). O catalisador de Pd foi o catalisador mais seletivo para a hidrogenação de fenol em ciclo-hexanona, independente do suporte usado. A formação de ciclo-hexanol é favorecida pelo suporte de titânia e a hidrodesoxigenação para produzir ciclo-hexano ocorreu principalmente no suporte de sílica.
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Novas rotas de síntese de óxidos de titânio e mistos titânio-zircônio mesoestruturados via método sol-gel por template com surfactantes / New synthetic routes for mesostructured titanium dioxide and mixed titanium-zirconium dioxide via surfactant-templated sol-gel methodsEiwalt Rodolfo Hanzl 16 November 2009 (has links)
Uma nova rota de síntese via metodo sol-gel para óxido de titânio (titânia) e óxido misto titânio/zircônio (zircônia) é proposta neste trabalho. As amostras foram submetidas ao tratamento hidrotérmico e obteve-se compostos mesoestruturados e de elevada área superficial. Algumas amostras foram submetidas à calcinação a 450°C para a verificação da estabilidade a altas temperaturas. As amostras foram analisadas por difratometria de raios-x (DRX), espalhamento de raios-x de baixo ângulo (SAXS), área superficial através do método BET, por microscopia eletrônica de varredura por emissão de campo (FE-SEM), além de serem testadas na fotodegradação de corantes. Foram testados diferentes alcóxidos precursores, isopropóxido de titânio e n-butóxido de titânio; ácidos, clorídrico e nítrico; e surfactantes, Pluronic® P123, Brij® 700 e Brij® 98; e também variadas as quantidades de surfactantes utilizadas, para que fosse possível analisar como estas variações afetam a síntese dos compostos e se estabelecer uma nova rota padronizada utilizando-se os melhores precursores em quantidades ideais. Para efeito de comparação, foi testada uma rota alcalina de síntese, que levou ao material com área superficial mais elevada. Como resultado deste trabalho, foi desenvolvida uma nova rota de síntese para óxidos mesoestruturados de titânio e titânio/zircônio corn elevada área superficial, na qual a etapa de calcinação para remoção do surfactante foi eliminada. Algunas dos materiais preparados mostraram excelente desempenho na degradação fotocatalítica de um corante comercial. / A new sol-gel based synthetic route for titania and mixed titania-zirconia ceramic powders is proposed in this contribution. This route combines a surfactant-template strategy with hydrothermal treatment, yielding mesostructured compoundes with a high surface area. Some samples were calcined at 450 °C in order to verify the stability of the structures at these temperatures. The materials were characterized by x-ray diffraction (XRD), small angle x-ray scattering (SAXS), surface area (BET method), field emission scanning electron microscopy (FE-SEM), and were also tested in the photocatalytic degradation of selected dyes. Different precursor alcóxidos were used: titanium isopropoxide and titanium n-butoxide. Two different acids were used to catalyze the hydrolysis reaction, HCl and HNO3. Three surfactants were used as templating agents: Pluronic P123®, Brij 700®, and Brij 98®. The amount of surfactant was also changed in order to verify how these variations affect the surface area and morphology of the resulting compounds. For comparison, an alkaline route was also tested, in which the highest surface area was observed. As a result of this work, a new synthetic route for mesostructured titania and titania-zirconia mixed oxides was developed, in which the surfactant is removed without a calcinations step, resulting in compounds with high surface areas and, in some cases, excellent photocatalytic properties for the degradation of a dye.
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Novas rotas de síntese de óxidos de titânio e mistos titânio-zircônio mesoestruturados via método sol-gel por template com surfactantes / New synthetic routes for mesostructured titanium dioxide and mixed titanium-zirconium dioxide via surfactant-templated sol-gel methodsHanzl, Eiwalt Rodolfo 16 November 2009 (has links)
Uma nova rota de síntese via metodo sol-gel para óxido de titânio (titânia) e óxido misto titânio/zircônio (zircônia) é proposta neste trabalho. As amostras foram submetidas ao tratamento hidrotérmico e obteve-se compostos mesoestruturados e de elevada área superficial. Algumas amostras foram submetidas à calcinação a 450°C para a verificação da estabilidade a altas temperaturas. As amostras foram analisadas por difratometria de raios-x (DRX), espalhamento de raios-x de baixo ângulo (SAXS), área superficial através do método BET, por microscopia eletrônica de varredura por emissão de campo (FE-SEM), além de serem testadas na fotodegradação de corantes. Foram testados diferentes alcóxidos precursores, isopropóxido de titânio e n-butóxido de titânio; ácidos, clorídrico e nítrico; e surfactantes, Pluronic® P123, Brij® 700 e Brij® 98; e também variadas as quantidades de surfactantes utilizadas, para que fosse possível analisar como estas variações afetam a síntese dos compostos e se estabelecer uma nova rota padronizada utilizando-se os melhores precursores em quantidades ideais. Para efeito de comparação, foi testada uma rota alcalina de síntese, que levou ao material com área superficial mais elevada. Como resultado deste trabalho, foi desenvolvida uma nova rota de síntese para óxidos mesoestruturados de titânio e titânio/zircônio corn elevada área superficial, na qual a etapa de calcinação para remoção do surfactante foi eliminada. Algunas dos materiais preparados mostraram excelente desempenho na degradação fotocatalítica de um corante comercial. / A new sol-gel based synthetic route for titania and mixed titania-zirconia ceramic powders is proposed in this contribution. This route combines a surfactant-template strategy with hydrothermal treatment, yielding mesostructured compoundes with a high surface area. Some samples were calcined at 450 °C in order to verify the stability of the structures at these temperatures. The materials were characterized by x-ray diffraction (XRD), small angle x-ray scattering (SAXS), surface area (BET method), field emission scanning electron microscopy (FE-SEM), and were also tested in the photocatalytic degradation of selected dyes. Different precursor alcóxidos were used: titanium isopropoxide and titanium n-butoxide. Two different acids were used to catalyze the hydrolysis reaction, HCl and HNO3. Three surfactants were used as templating agents: Pluronic P123®, Brij 700®, and Brij 98®. The amount of surfactant was also changed in order to verify how these variations affect the surface area and morphology of the resulting compounds. For comparison, an alkaline route was also tested, in which the highest surface area was observed. As a result of this work, a new synthetic route for mesostructured titania and titania-zirconia mixed oxides was developed, in which the surfactant is removed without a calcinations step, resulting in compounds with high surface areas and, in some cases, excellent photocatalytic properties for the degradation of a dye.
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Morphology-preserving chemical conversion of bioorganic and inorganic templatesVernon, Jonathan P. 17 January 2012 (has links)
The generation of nanostructured assemblies with complex (three-dimensional, 3D) self-assembled morphologies and with complex (multicomponent) tailorable inorganic compositions is of considerable technological and scientific interest. This research demonstrates self-assembled 3D organic templates of biogenic origin can be converted into replicas comprised of numerous other functional nanocrystalline inorganic materials. Nature provides a spectacular variety of biologically-assembled 3D organic structures with intricate, hierarchical (macro-to-micro-to-nanoscale) morphologies. Morphology-preserving chemical conversion of such readily available, structurally complex templates will provide a framework for chemical conversion of synthetic organic templates and, potentially, production of organic/inorganic composites. Four research thrusts are detailed in this dissertation. First, chemical conversion of a nanostructured bioorganic template into a multicomponent oxide compound (tetragonal BaTiO₃ via layer-by-layer surface sol-gel coating and subsequent morphology-preserving microwave hydrothermal processing was demonstrated. Second, photoluminescence was imparted to bioorganic template structures through morphology-preserving chemical conversion to exhibit both the dramatic change in properties such processing can provide, and the potential utility of chemically transformed templates in anti-counterfeiting / authentication applications. Third, the reaction mechanism(s) for morphology-preserving microwave hydrothermal conversion of TiO₂ to BaTiO₃, were studied with the aid of Au inert markers on single crystal rutile TiO₂. Finally, constructive coating techniques (SSG) and moderate temperature (< 500C) heat treatments were utilized to modify and replicate structural color and were coupled with deconstructive focused ion beam microsurgery to prepare samples for microscale structure/property interrogation. Specifically, the effects of coating thickness and coating composition on reflection spectra of structurally colored templates were examined. Also, the effects of the replacement of natural material with higher index of refraction inorganic materials on optical properties were studied. The three processing research thrusts constituting chapters 1, 2 and 4 take advantage of moderate temperature processing to ensure nanocrystalline materials, either for shape preservation or to prevent scattering in optical applications. The research thrust presented in chapter 3 examines hydrothermal conversion of TiO₂ to BaTiO₃, not only to identify the reaction mechanism(s) involved in hydrothermal conversion under morphology-preserving conditions, but also to introduce inert marker experiments to the field of microwave hydrothermal processing.
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Particle interactions at the nanoscale : From colloidal processing to self-assembled arraysFaure, Bertrand January 2012 (has links)
Nanostructured materials are the next generation of high-performance materials, harnessing the novel properties of their nanosized constituents. The controlled assembly of nanosized particles and the design of the optimal nanostructure require a detailed understanding of particle interactions and robust methods to tune them. This thesis describes innovative approaches to these challenges, relating to the determination of Hamaker constants for iron oxide nanoparticles, the packaging of nanopowders into redispersible granules, the tuning of the wetting behavior of nanocrystals and the simulation of collective magnetic properties in arrays of superparamagnetic nanoparticles. The non-retarded Hamaker constants for iron oxides have been calculated from their optical properties based on Lifshitz theory. The results show that the magnitude of vdW interactions in non-polar solvents has previously been overestimated up to 10 times. Our calculations support the experimental observations that oleate-capped nanoparticles smaller than 15 nm in diameter can indeed form colloidally-stable dispersions in hydrocarbons. In addition, a simple procedure has been devised to remove the oleate-capping on the iron oxide nanoparticles, enabling their use in fluorometric assays for water remediation, with a sensitivity more than 100 times below the critical micelle concentration for non-ionic surfactants. Nanosized particles are inherently more difficult to handle in the dry state than larger micron-sized powders, e.g. because of poor flowability, agglomeration and potential toxicity. The rheology of concentrated slurries of TiO2 powder was optimized by the addition of sodium polyacrylate, and spray-dried into fully redispersible micron-sized granules. The polymer was embedded into the granules, where it could serve as a re-dispersing aid. Monte Carlo (MC) simulations have been applied to the collective magnetic behavior of nanoparticle arrays of various thicknesses. The decrease in magnetic susceptibility with the thickness observed experimentally was reproduced by the simulations. Ferromagnetic couplings in the arrays are enhanced by the finite thickness, and decrease in strength with increasing thickness. The simulations indicate the formation of vortex states with increasing thickness, along with a change in their orientation, which becomes more and more isotropic as the thickness increases. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Manuscript.</p>
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Diatom AlchemyGaddis, Christopher Stephen 03 December 2004 (has links)
This work resulted in the development of multiple distinct and novel methods of cheaply producing large numbers of biologically derived, complex, 3-dimensional microstructures in a multitude of possible compositions. The biologically derived structures employed in this work were diatoms, a type of single celled algae, which grow complex silica shells in species-specific shapes. Due to the wide diversity of naturally occurring diatom shapes (on the order of 105), and the flexibility in tailoring chemical compositions using the methods developed here, real potential exists for cheaply mass-producing industrially relevant quantities of controlled shape and size 3-d particles for the first time. The central theme of this research is the use of diatoms as a transient scaffold onto which a coating is applied. After curing the coating, and in some cases firing the coating to form ceramic, the diatom can be selectively etched away leaving a free standing replica of the original structure with the salient features of the pre-form intact, but now composed of a completely different material. Using this concept, specific methods were developed to suit various precursors. Dip coating techniques were used to create epoxy diatoms, and silicon carbide diatoms. The Sol-Gel method was used to synthesize zirconia diatoms in both the tetragonal and monoclinic phases. A multi step method was developed in which previously synthesized epoxy diatoms were used as a template for deposition of a silicon carbide precursor and then heat treated to produce a silicon carbide/carbon multi-component ceramic. A hydrothermal reaction was also developed to convert Titania diatoms to barium titanate by reaction with barium hydroxide. Finally, the device potential of diatom-derived structures was conclusively demonstrated by constructing a gas sensor from a single Titania diatom. Under suitable conditions, the sensor was found to have the fastest response and recovery time of any sensor of this type reported in the literature. Furthermore, this work has laid the groundwork for the synthesis of many other tailored compositions of diatoms, and provided several compositions for device creation.
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Experimentelle und theoretische Ansätze zur Entschwefelung eines mit Kohlenwasserstoffen beladenen Gases / Approche théorique et expérimentale de l'oxydation catalytique de l'hydrogène sulfureux en présence d'hexane / Experimental and theoretical investigation of hydrogen sulphide catalytical oxidation with small amounts of hexaneAverlant, Gauthier 26 March 2006 (has links) (PDF)
The catalycal oxidation of hydrogen sulphide in presence of small amounts of hexan has been investigated over a Titania catalyst. H2S is converted into sulphur. Nevertheless the catalyst undergoes a deactivation through coke formation. In order to explain the coke profile in the inner of the catalyst's pellet, the influence of the internal heat and mass transfers has been considered using a pore network. / Die katalytische Oxydation von Schwefelwasserstoff auf einem TiO2-Anatase-Katalysator wird in Anwesenheit von n-Hexan durchgeführt. Schwefel wird gebildet. Der Katalysator unterliegt jedoch eine schnelle Deaktivierung durch Russbildung, die anhand eines Porennetzwerksmodells simuliert werden wird. Sowohl Stoff- als auch Wärmetransport werden berücksichtigt.
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Χαρακτηρισμός και έλεγχος ιδιοτήτων των μικτών οξειδίων στο σύστημα ZrO2-Y2O3-TiO2 (Cr2O3) καθώς και των κεραμομεταλλικών Ni/ZrO2-Y2O3-TiO2, ως υλικών ανόδου κελίου καυσίμου στέρεου ηλεκτρολύτη (SOFC) / Physical characterization and properties control of the ZrO2-Y2O3-TiO2 (Cr2O3) mixed oxides as well as the Ni/ZrO2-Y2O3-TiO2, cermets as anode materials of solid oxide fuel cell (SOFC)Σκαρμούτσος, Διονύσιος Σ. 24 June 2007 (has links)
Στα πλαίσια της αναζήτησης νέων µεθόδων παραγωγής ενέργειας υψηλής απόδοσης και φιλικής προς το περιβάλλον, ένα µεγάλο µέρος των ερευνητικών δραστηριοτήτων σε διεθνή κλίµακα έχει στραφεί στην ανάπτυξη της τεχνολογίας των κελίων καυσίµου στερεού ηλεκτρολύτη, SOFC’s (Solid Oxide Fuel Cell’s). Λόγω της φιλικότητάς τους προς το περιβάλλον τα SOFC’s µπορεί να εισαχθούν για χρήση και σε αστικές περιοχές, όπου παράλληλα µε την παραγόµενη ηλεκτρική ενέργεια, είναι δυνατόν να αξιοποιηθεί και η εκλυόµενη θερµική ενέργεια για θέρµανση χώρων, αυξάνοντας συνολικά την αποτελεσµατικότητά τους. Ένα από τα µειονεκτήµατα που εµφανίζονται κατά την µακρόχρονη λειτουργία ενός «State of the art» κελίου καυσίµου αποτελούµενο από Ni/YSZ-κεραµοµεταλλικό (άνοδος) – YSZ (ηλεκτρολύτη) – LaMnO3 περοβσκίτης (κάθοδος) – LaCrO3 περοβσκίτης (συνδέτης) είναι η υποβάθµιση της απόδοσής του, η οποία µεταξύ άλλων οφείλεται και στην αστάθεια της µικροδοµής του κεραµοµεταλλικού ηλεκτροδίου της ανόδου, λόγω συσσωµάτωσης της µεταλλικής φάσης. Στόχος της εργασίας ήταν η βελτίωση της ευστάθειας της µικροδοµής, καθώς και η διερεύνηση της δυνατότητας ελάττωσης του ποσοστού συµµετοχής της µεταλλικής φάσης στο κεραµοµεταλλικό υλικό του ηλεκτροδίου της ανόδου, χωρίς σηµαντική απώλεια σε ηλεκτρική αγωγιµότητα. Για τον σκοπό αυτό παρασκευάσθηκαν, χαρακτηρίσθηκαν και ελέγχθηκαν οι ιδιότητες µικτών κεραµικών οξειδίων επιλεγµένων συνθέσεων του τριµερούς συστήµατος ZrO2-Y2O3-TiO2 (η Cr2O3) καθώς και τα αντίστοιχα κεραµοµεταλλικά Ni/ZrO2-Y2O3-TiO2 µε προσθήκη 30,40 και 45 vol% Ni. Aπό τα αποτελέσµατα προέκυψε ότι σε θερµοκρασία πύρωσης 1400ºC σχηµατίζονται µικτά οξείδια µε την κυβική δοµή του πλέγµατος φθορίτη και συντελεστή θερµικής διαστολής αντίστοιχο του ηλεκτρολύτη (YSZ). Η ηλεκτρική τους αγωγιµότητα σε ατµόσφαιρα Ar+4%H2 είναι µικτού τύπου (ιοντική + ηλεκτρονιακή), όµως λόγω της χαµηλής απόλυτης τιµής στην θερµοκρασιακή περιοχή λειτουργίας του κελίου καυσίµου (900-1000ºC) δεν προσφέρονται για χρήση αυτούσια, ως κεραµικές άνοδοι. ΠΕΡΙΛΗΨΗ-ABSTRACT 6 Από πειράµατα διαβροχής στο σύστηµα Ni σε επαφή µε τα µικτά οξείδια προέκυψε ότι η παρουσία TiO2 βελτιώνει την συνάφεια και ως εκ τούτου την ισχύ του δεσµού στην διεπιφάνεια µετάλλου/κεραµικού. Η βελτίωση των διεπιφανειακών ιδιοτήτων έχει σαν αποτέλεσµα των ελάττωση του συντελεστού διαστολής των κεραµεταλλικών και την καλλίτερη µηχανική προσαρµογή τους στον ηλεκτρολύτη (YSZ).Επίσης, λόγω της µείωσης του ρυθµού συσσωµάτωσης των σωµατιδίων της µεταλλικής φάσης, οι τιµές της ηλεκτρικής αγωγιµότητας των κεραµοµεταλλικών παραµένουν σε υψηλά επίπεδα και µετά από µακροχρόνια παραµονή σε συνθήκες λειτουργίας (1000ºC, 1000h). Πρώτες ηλεκτροχηµικές µετρήσεις σε κελία καυσίµου µε κεραµοµεταλλική άνοδο, αποτελούµενη από επιλεγµένη σύνθεση µικτού οξείδίου του τριµερούς συστήµατος ως κεραµικής συνιστώσας, έδωσαν ενθαρρυντικά αποτελέσµατα αφήνοντας σηµαντικά περιθώρια για επίτευξη ικανοποιητικών επιδόσεων, µε βελτίωση του τρόπου κατασκευής. / Within the research framework for the development of alternative, friendly to the environment methods for the production of energy, significant effort is focusing on the SOFC’s (Solid Oxide Fuel Cell’s) technology. Due to their low pollutant emissions fuel cells can be applied inside civil areas were the electrical power can be used together with the thermal energy generated by the cell, increasing the total performance of the device. The “state of the art” fuel cell structure is the anode electrode (Ni/YSZ cermet), the electrolyte (YSZ), the cathode electrode (LaMnO3 perowskite) and the interconnector (LaCrO3 perowskite). One of the disadvantages of fuel cells is the performance degradation due to the instability of the YSZ/Ni anode electrode microstructure caused by metal phase sintering. This work aims to the improvement of microstructure stability as well as the possibility of reducing the amount of the metallic phase to the anode cermet without affecting its electrical properties. New ceramic materials of the ternary system ZrO2-Y2O3-TiO2 (or Cr2O3) were produced and characterized as well as their corresponding cermets Ni/ZrO2-Y2O3-TiO2 by the addition of 30,40 and 45 vol% Ni. After calcination at 1400ºC mixed oxides are formed having cubic fluorite crystal structure and similar thermal expansion properties to the YSZ ceramic oxide. The electrical conductivity in reducing atmosphere Ar+4%H2 is of electronic and ionic type but due to the low values in the working temperature range of a fuel cell (900-1000ºC) they cannot be used independently as anode materials. Wetting experiments of the system Ni in contact to those mixed oxides showed that TiO2 presence enhances the adherence and the bond strength at the metal ceramic interface. Improvement of the interfacial properties results to the decrease of cermets thermal expansion improving in this way the mechanical adjustment of the anode to the electrolyte. Also due to the decrease of the sintering tendency of the metallic phase particles, the electrical conductivity values remain at high values after long term annealing at high temperature (1000ºC, 1000h). Early electrochemical tests performed to fuel cells having a selected anode material showed encouraging results leaving space for improvement especially to the construction methods used in order to achieve satisfactory performance.
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