Avaliação da performance de eletrodos de filmes finos de Ti/TiO 2 com diferentes tamanhos de nanopartículas na oxidação fotoeletrocatalítica de Índigo Carmim

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Estudo da eficiência fotocatalítica em função da morfologia de nanoestruturas de TiO2 síntetizadas pelo método hidrotérmico

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Síntese e caracterização de ZnO/TiO2 nanoestruturado

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Preparação de espumas cerâmicas de 'TIO IND. 2' a partir do processo sol-emulsão-gel

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Vanadium-doped TiO2 anatase nanostructures: the role of V in solid solution formation and its effect on the optical properties

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Estudo do desempenho de filmes de Ti02 como aceptor de elétrons e obtenção de fases puras de nanopartículas de Ti02: anatase e rutila, sintetizado por uma nova rota química

Pós-graduação em Ciência dos Materiais - FEIS

Photocatalytic decomposition of rhodamine-B using scandium and silver-modified TiO2 Powders

Semiconductor-mediated photocatalytic oxidation is an interesting method for water decontamination and a specially modified TiO2 is said to be a promising material. This study verified that the synthesis of 1wt%Ag modified-Sc0.01Ti0.99O1.995 powder samples prepared by Polymeric Precursor Method is capable of forming a mixture of anatase-rutile phase with high photocatalytic performance. This kind of material is found to have a lower bandgap compared to the TiO2-anatase commercial powders, which can be associated to an innovative hybrid modification. The simultaneous insertion of scandium in order to generate a p-type semiconductor and a metallic silver nanophase acting as an electron trapper demonstrated being capable of enhancing the degradation of rhodamine B compared to the commercial TiO2. In spite of the different thermal treatments or phase amounts, the hybrid modified powder samples showed higher photocatalytic activity than the commercial ones.

Nanotubos óxidos aplicados a resinas compostas fotoativadas

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Carbon-supported TiO2-Au hybrids as catalysts for the electrogeneration of hydrogen peroxide: Investigating the effect of TiO2 shape

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Phonon confinement model to measure the average sizes of anatase nanoparticles synthesized by a solvothermal method using H2O2

In this work, crystalline titanium dioxide (TiO2) nanoparticles with variable average crystallite sizes (e.g., 8 nm) and surface areas (e.g., 192 m² g-1) were synthesized in pure anatase phase using H2O2 to reduce the hydrolysis rate of the titanium ions. An isopropanol (IP) solution was employed as the reaction medium. The TiO2 nanoparticles were characterized by powder X-ray diffraction analysis (XRD), Raman spectroscopy and transmission electron microscopy (TEM). By changing the synthesis parameters it was possible to control nanoparticle size and avoid the coalescence process. A dependence of the Raman wavenumber on the nanocrystal sizes was determined, which is quite useful for a quick check of the size of TiO2 nanocrystals.

Photocatalytic decomposition of rhodamine-b using scandium and silver-modified TiO2 powders

Semiconductor-mediated photocatalytic oxidation is an interesting method for water decontamination and a specially modified TiO2 is said to be a promising material. This study verified that the synthesis of 1wt%Ag modified-Sc0.01Ti0.99O1.995 powder samples prepared by Polymeric Precursor Method is capable of forming a mixture of anatase-rutile phase with high photocatalytic performance. This kind of material is found to have a lower bandgap compared to the TiO2-anatase commercial powders, which can be associated to an innovative hybrid modification. The simultaneous insertion of scandium in order to generate a p-type semiconductor and a metallic silver nanophase acting as an electron trapper demonstrated being capable of enhancing the degradation of rhodamine B compared to the commercial TiO2. In spite of the different thermal treatments or phase amounts, the hybrid modified powder samples showed higher photocatalytic activity than the commercial ones.

Preparação, caracterização e estudo da eficiência na fotodegradação e adsorção de Rodamina B de heteroestruturas de TiO2/α-Fe2O3

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Raman and XRD study on brookite-anatase coexistence in cathodic electrosynthesized titania

Among the many methods developed for the synthesis of titanium dioxide, cathodic electrosynthesis has not received much attention because the resulting amorphous oxy-hydroxide matrix demands a further thermal annealing step to be transformed into crystalline titania. However, the possibility of filling deep recessed templates by the control of the solidliquid interface makes it a potentially suitable technique for the fabrication of porous scaffolds for photovoltaics and photocatalysis. Furthermore, a careful control of the crystallization process enables the growth of larger grains with lower density of grain boundaries, which act as electron traps that slow down electronic transport and promote charge recombination. In this report, well crystallized titania deposits were obtained by thermal annealing of amorphous deposits fabricated by cathodically assisted electrosynthesis on indium-tin oxide (ITO)substrates. The combined use of Raman spectroscopy and X-ray diffraction showed that the crystallization process is more intricate than previously assumed. It is shown that the amorphous matrix evolves into a rutile-free mixture of brookite and anatase at temperatures as low as 200 degrees C that persists up to 800 degrees C, when pure anatase dominates. The amount of brookite in the brookiteanatase mixture reaches a maximum at 400 degrees C. This very simple method for obtaining a brookiteanatase mixture and the ability to tune their proportions by thermal annealing is a promising alternative whose potential for solar cells and photocatalysis deserves a careful evaluation. Copyright (C) 2011 John Wiley & Sons, Ltd.

Materiali Ceramici per Edilizia con Funzionalità Fotocatalitica

This thesis wad aimed at the study and application of titanium dioxide photocatalytic activity on ceramic materials. As a matter of fact, photocatalysis is a very promising method to face most of the problems connected with the increasing environmental pollution. Furthermore, titanium dioxide, in its anatase crystallographic phase, is one of the most investigated photocatalytic material and results to be perfectly compatible with silicate body mixes. That goal was pursued by two different strategies: 1. the addition to a body mix used for heavy clay products of several titania powders, with different mean crystallite size, surface area, morphology and anatase/rutile ratio and a titania nanosuspension as well. The titania addition followed two procedures: bulk and spray addition over the ceramic samples surface. Titania was added in two different percentages: 2.5 and 7.5 wt.% in both of the methods. The ceramic samples were then fired at three maximum temperatures: 900, 950 and 1000 °C. Afterwards, the photocatalytic activity of the prepared ceramic samples was evaluated by following the degradation of an organic compound in aqueous medium, under UV radiation. The influence of titania morphological characteristics on the photoactivity of the fired materials was studied by means of XRD and SEM observations. The ceramic samples, sprayed with a slip containing 7.5 wt.% of titania powder and fired at 900 °C, have the best photoactivity, with a complete photo-decomposition of the organic compound. At 1000 °C no sample acted as a photocatalyst due to the anatase-to-rutile phase transformation and to the reaction between titania and calcium and iron oxides in the raw materials. 2. The second one foresaw the synthesis of TiO2-SiO2 solid solutions, using the following stoichiometry: Ti1-xSixO2 where x = 0, 0.1, 0.3 and 0.5 atoms per formula unit (apfu). The mixtures were then fired following two thermal cycles, each with three maximum temperatures. The effect of SiO2 addition into the TiO2 crystal structure and, consequently, on its photocatalytic activity when fired at high temperature, was thoroughly investigated by means of XRD, XPS, FE-SEM, TEM and BET analysis. The photoactivity of the prepared powders was assessed both in gas and liquid phase. Subsequently, the TiO2-SiO2 solid solutions, previously fired at 900 °C, were sprayed over the ceramic samples surface in the percentage of 7.5 wt.%. The prepared ceramic samples were fired at 900 and 1000 °C. The photocatalytic activity of the ceramic samples was evaluated in liquid phase. Unfortunately, that samples did not show any appreciable photoactivity. In fact, samples fired at 900 °C showed a pretty low photoactivity, while the one fired at 1000 °C showed no photoactivity at all. This was explained by the excessive coarsening of titania particles. To summarise, titania particle size, more than its crystalline phase, seems to have a relevant role in the photocatalytic activity of the ceramic samples.

Modifizierungen des Enzyms Silicatein alpha zur direkten Immobilisierung auf verschiedenen Oberflächen : neuartige Herstellung von Kompositmaterialien unter physiologischen Bedingungen

Das Silicatein α ist ein 24 kDa großes Enzym, welches im Schwamm Suberites domuncula für die Synthese von Biosilikat verantwortlich ist. Vorhergehende Studien haben gezeigt, dass Silicatein auch die Synthese anderer Metalloxide wie Titandioxid, Galliumoxid und Zirkoniumdioxid katalysieren kann. Diese Fähigkeiten machen das Silicatein α für biomedizinische und biotechnologische Anwendungen interessant, da die Synthese unter nahezu physiologischen Bedingungen ablaufen kann, was die Herstellung neuartiger Kompositmaterialien mit einzigartigen Eigenschaften erleichtern würde. Zur Immobilisierung des Silicatein α auf verschiedenen Oberflächen wurde bislang ein Nickel-NTA-Kopolymer eingesetzt. Diese Art der Immobilisierung bietet eine Reihe von Möglichkeiten in der Nanobiotechnologie, stößt aber in der Biomedizin an ihre Grenzen, da sich nicht alle Oberflächen für ein solches Coating eignen. Zudem können die zur Aktivierung des Polymers nötigen Lösungsmittel und die über die Zeit freigesetzten Monomere aus dem Polymergerüst toxische oder mutagene Wirkung auf das umliegende Gewebe haben. Deshalb wurde das Silicatein α in dieser Arbeit mit zwei Affinitäts-Tags so modifiziert, dass es an verschiedene Oberflächen immobilisiert werden kann und dabei seine Aktivität beibehält. Zuerst wurde das Silicatein mit einem Glu-tag am N-terminalen Ende modifiziert. Dadurch gelang die direkte Immobilisierung an Hydroxyapatit und die folgende, enzymkatalysierte Synthese von Biosilikat-Beschichtungen auf diesem Träger. Die Eigenschaften eines solchen HA-Kompositmaterials können zum Beispiel zu einem verbesserten, schnelleren und stabileren Einwachsen von Knochenimplantaten führen, da Biosilikat die Reifung und Differenzierung von Osteoblasten beschleunigt. rnMit dem an Hydroxyapatit-Plättchen immobilisierten Glu-tag-Silicatein wurde ein modifizierter Pull-down Assay etabliert, wodurch bekannte, aber auch bis dahin noch unbekannte Protein-Interaktionspartner identifiziert werden konnten. rnUm zu zeigen, dass der entwickelte Glu-tag an präformierte, calciumhaltige Oberflächen binden kann, wurden die Nadeln des Kalkschwammes Paraleucilla magna als Modellorganismus verwendet. Die Nadeln konnten durch das immobilisierte Silicatein mit einer Titandioxid-Schicht überzogen werden und unter Verwendung des Interaktionspartners Silintaphin-1 konnte diese Beschichtung noch verstärkt werden. Solche CaCO3-Kompositmaterialien könnten sowohl in der Biomedizin als auch in der Biotechnologie zum Einsatz kommen. Neben den erwähnten calciumhaltigen Materialien finden auch andere Stoffe wie TiO2-Nanodrähte Verwendung in der Forschung. In weiterführenden Experimenten konnte gezeigt werden, dass der entwickelte Glu-tag auch Affinität zu Titandioxid-Oberflächen vermittelt. Auch hier konnte durch das oberflächenimmobilisierte Enzym eine Biosilikatbeschichtung synthetisiert werden. rnMit der zweiten Modifikation - einem Cys-tag - konnte Silicatein direkt auf Goldoberflächen immobilisiert werden. Durch die Verwendung eines Polydimethylsiloxan (PDMS)-Stempels wurde das Cys-getaggte Silicatein in einem linienförmigen Muster auf das Gold übertragen und die Synthese von Titandioxid dort nachgewiesen.rnDie Experimente und Ergebnisse dieser Arbeit haben gezeigt, dass Silicatein α durch einfache Modifikationen an verschiedene Oberflächen immobilisiert werden kann und dabei immer noch seine Aktivität behält. rnHierdurch ergibt sich die Möglichkeit, unter Normalbedingungen verschiedenste Kompositmaterialien herzustellen.rn