Análise in vitro da morfologia superficial de uma nova formulação de biovidro associado ao laser de Nd:YAG e laser de CO2 sobre dentina humana / In vitro analysis of the surface morphology of a new bioglass formulation associated with Nd: YAG laser and CO2 laser on human dentin

Lee, Ester Mi Ryoung

13 June 2017

Dentre as opções de terapias dessensibilizantes, a proposta mais recente para o tratamento da Hipersensibilidade Dentinária é o uso do biovidro. Esse novo material apresenta a capacidade de promover a formação de hidroxiapatita na superfície da dentina, representando uma união química mais estável e duradoura sobre os túbulos dentinários. Este trabalho comparou o efeito de uma nova formulação de biovidro disperso em ácido fosfórico 30%, associado ao laser de Nd:YAG e ao laser de CO2 na obliteração de túbulos dentinários expostos. Foram obtidas 96 amostras de dentina humana que foram divididas em 6 grupos experimentais (n=16) e distribuídas como a seguir: G1 -­ controle negativo (nenhum tratamento adicional);? G2 -­ laser de Nd:YAG;? G3 -­ laser de CO2;? G4 -­ pasta de biovidro (biovidro + ácido fosfórico 30%);? G5 -­ pasta de biovidro + laser de Nd:YAG;? G6 -­ pasta de biovidro + laser de CO2. Os grupos G5 e G6 foram irradiados com laser de Nd:YAG e laser de CO2, respectivamente, após tratamento com a pasta de biovidro disperso em ácido fosfórico. Ao final do experimento, os grupos foram analisados qualitativamente por Espectroscopia de Infravermelho na Transformada de Fourier (FTIR), Difração de Raios X (DRX), Microscopia Eletrônica de Varredura (MEV) e Espectroscopia de Dispersão de Energia de Raios X (EDS). As análises evidenciaram que a dipersão do biovidro em ácido fosfórico 30% é capaz de formar cristais de hidrogenofosfato de cálcio e, quando a pasta formulada é aplicada sobre a dentina, ocorrem reações químicas com a estrutura dental, formando cristais de monetita. Ao irradiar os cristais formados com laser de Nd:YAG e CO2, ocorreu a desidratação desses cristais, levando à formação de hidroxiapatita. As imagens de MEV demonstram a formação de precipitados cristalinos e amorfos de dimensões variadas sobre a superfície de dentina e na entrada dos túbulos dentinários em todos os grupos que receberam o tratamento com a formulação de biovidro. O laser de CO2 foi capaz de promover alterações na morfologia do material formado de maneira ainda mais evidente especialmente nas dimensões e disposição dos cristais de hidroxiapatita formado sobre a superfície. A análise de EDS evidenciou presença de silício, composto que não está presente naturalmente na estrutura dentária, mas somente na composição do biovidro. Dessa forma, pode-­se concluir que a associação do pó de biovidro com ácido fosfórico 30% permitiu a formação de uma camada de cristais na superfície e entrada dos túbulos dentinários, evidenciando que a pasta formulada viabiliza a aplicação e manutenção do biovidro sobre a superfície dentinária. Sua associação com o laser de Nd:YAG e CO2 parece melhorar a interação desses cristais com a dentina, formando cristais de hidroxiapatita. Nesse estudo, o laser de CO2 promoveu a melhor distribuição e conformação dos cristais sobre a dentina. / Among desensitizing therapies options, the most recent proposal for Dentin Hypersensitivity treatment is the use of bioglass. This new material presents the ability to promote the formation of hydroxyapatite on dentin surface, representing a more stable and lasting chemical bond on dentin tubules. This work compared the effect of a new formulation of bioglass dispersed in 30% phosphoric acid, associated with Nd: YAG laser and CO2 laser in the obliteration of exposed dentin tubules. 96 human dentin samples were obtained, divided into 6 experimental groups (n = 16) and distributed as follows: G1 -­ negative control (no additional treatment);? G2-­ Nd: YAG laser;? G3 - CO2 laser;? G4 -­ bioglass paste (bioglass + 30% phosphoric acid);? G5 -­ bioglass paste + Nd: YAG laser;? G6 -­ bioglass paste + CO2 laser. Groups G5 and G6 were irradiated with Nd:YAG laser and CO2 laser, respectively, after treatment with the slurry dispersed in phosphoric acid. At the end of the experiment, all groups were qualitatively analyzed by Fourier Transform Infrared Spectroscopy (FTIR), X-­ray Diffraction (XRD), Scanning Electron Microscopy (SEM) and X-­ray Energy Dispersion Spectroscopy (EDS). The analysis showed that the dispersion of bioglass in 30% phosphoric acid forms calcium hydrogen phosphate crystals and when the formulated paste is applied on dentin surface, chemical reactions occur with the dental structure, forming monetite crystals. When irradiating these crystals with Nd: YAG and CO2 laser, dehydration of these crystals occurred leading to the formation of hydroxyapatite. MEV images demonstrate the formation of crystalline and amorphous precipitates of varying dimensions on the dentin surface and at the entrance of dentinal tubules in all groups receiving treatment with the bioglass formulation. The CO2 laser was able to promote changes in the morphology of the formed material even more evident especially in the dimension and arrangement of hydroxyapatite crystals formed on the surface. The analysis of EDS showed the presence of silicon, a compound that is not naturally present in the tooth structure, but only in the bioglass composition. Thus, it can be concluded that the association of bioglass powder with 30% phosphoric acid allowed the formation of a layer of crystals on the surface and its entrance of the dentinal tubules, evidencing that the formulated paste enables the application and maintenance of bioglass on dentin surface. Its association with the Nd:YAG and CO2 laser seems to improve the interaction of these crystals with dentin, forming hydroxyapatite crystals. In this study. CO2 laser promoted better crystals distribution and conformation on dentin surface.

Bioglass

Biovidro. Vidro bioativo

CO2

CO2

Dentin Hypersensitivity

Difração de raios-­X

Dispersive energy of X-­rays

DRX

DRX

EDS

Energia dispersiva de raios-­X, EDS

Fourier transform infrared spectroscopy

FTIR

FTIR

Hiperensibilidade dentinária

Laser

Laser

MEV

MEV

Microscopia eletrônica de varredura

Nd:YAG

Nd:YAG

X-­ray diffraction

Análise in vitro da morfologia superficial de uma nova formulação de biovidro associado ao laser de Nd:YAG e laser de CO2 sobre dentina humana / In vitro analysis of the surface morphology of a new bioglass formulation associated with Nd: YAG laser and CO2 laser on human dentin

Ester Mi Ryoung Lee

13 June 2017

Dentre as opções de terapias dessensibilizantes, a proposta mais recente para o tratamento da Hipersensibilidade Dentinária é o uso do biovidro. Esse novo material apresenta a capacidade de promover a formação de hidroxiapatita na superfície da dentina, representando uma união química mais estável e duradoura sobre os túbulos dentinários. Este trabalho comparou o efeito de uma nova formulação de biovidro disperso em ácido fosfórico 30%, associado ao laser de Nd:YAG e ao laser de CO2 na obliteração de túbulos dentinários expostos. Foram obtidas 96 amostras de dentina humana que foram divididas em 6 grupos experimentais (n=16) e distribuídas como a seguir: G1 -­ controle negativo (nenhum tratamento adicional);? G2 -­ laser de Nd:YAG;? G3 -­ laser de CO2;? G4 -­ pasta de biovidro (biovidro + ácido fosfórico 30%);? G5 -­ pasta de biovidro + laser de Nd:YAG;? G6 -­ pasta de biovidro + laser de CO2. Os grupos G5 e G6 foram irradiados com laser de Nd:YAG e laser de CO2, respectivamente, após tratamento com a pasta de biovidro disperso em ácido fosfórico. Ao final do experimento, os grupos foram analisados qualitativamente por Espectroscopia de Infravermelho na Transformada de Fourier (FTIR), Difração de Raios X (DRX), Microscopia Eletrônica de Varredura (MEV) e Espectroscopia de Dispersão de Energia de Raios X (EDS). As análises evidenciaram que a dipersão do biovidro em ácido fosfórico 30% é capaz de formar cristais de hidrogenofosfato de cálcio e, quando a pasta formulada é aplicada sobre a dentina, ocorrem reações químicas com a estrutura dental, formando cristais de monetita. Ao irradiar os cristais formados com laser de Nd:YAG e CO2, ocorreu a desidratação desses cristais, levando à formação de hidroxiapatita. As imagens de MEV demonstram a formação de precipitados cristalinos e amorfos de dimensões variadas sobre a superfície de dentina e na entrada dos túbulos dentinários em todos os grupos que receberam o tratamento com a formulação de biovidro. O laser de CO2 foi capaz de promover alterações na morfologia do material formado de maneira ainda mais evidente especialmente nas dimensões e disposição dos cristais de hidroxiapatita formado sobre a superfície. A análise de EDS evidenciou presença de silício, composto que não está presente naturalmente na estrutura dentária, mas somente na composição do biovidro. Dessa forma, pode-­se concluir que a associação do pó de biovidro com ácido fosfórico 30% permitiu a formação de uma camada de cristais na superfície e entrada dos túbulos dentinários, evidenciando que a pasta formulada viabiliza a aplicação e manutenção do biovidro sobre a superfície dentinária. Sua associação com o laser de Nd:YAG e CO2 parece melhorar a interação desses cristais com a dentina, formando cristais de hidroxiapatita. Nesse estudo, o laser de CO2 promoveu a melhor distribuição e conformação dos cristais sobre a dentina. / Among desensitizing therapies options, the most recent proposal for Dentin Hypersensitivity treatment is the use of bioglass. This new material presents the ability to promote the formation of hydroxyapatite on dentin surface, representing a more stable and lasting chemical bond on dentin tubules. This work compared the effect of a new formulation of bioglass dispersed in 30% phosphoric acid, associated with Nd: YAG laser and CO2 laser in the obliteration of exposed dentin tubules. 96 human dentin samples were obtained, divided into 6 experimental groups (n = 16) and distributed as follows: G1 -­ negative control (no additional treatment);? G2-­ Nd: YAG laser;? G3 - CO2 laser;? G4 -­ bioglass paste (bioglass + 30% phosphoric acid);? G5 -­ bioglass paste + Nd: YAG laser;? G6 -­ bioglass paste + CO2 laser. Groups G5 and G6 were irradiated with Nd:YAG laser and CO2 laser, respectively, after treatment with the slurry dispersed in phosphoric acid. At the end of the experiment, all groups were qualitatively analyzed by Fourier Transform Infrared Spectroscopy (FTIR), X-­ray Diffraction (XRD), Scanning Electron Microscopy (SEM) and X-­ray Energy Dispersion Spectroscopy (EDS). The analysis showed that the dispersion of bioglass in 30% phosphoric acid forms calcium hydrogen phosphate crystals and when the formulated paste is applied on dentin surface, chemical reactions occur with the dental structure, forming monetite crystals. When irradiating these crystals with Nd: YAG and CO2 laser, dehydration of these crystals occurred leading to the formation of hydroxyapatite. MEV images demonstrate the formation of crystalline and amorphous precipitates of varying dimensions on the dentin surface and at the entrance of dentinal tubules in all groups receiving treatment with the bioglass formulation. The CO2 laser was able to promote changes in the morphology of the formed material even more evident especially in the dimension and arrangement of hydroxyapatite crystals formed on the surface. The analysis of EDS showed the presence of silicon, a compound that is not naturally present in the tooth structure, but only in the bioglass composition. Thus, it can be concluded that the association of bioglass powder with 30% phosphoric acid allowed the formation of a layer of crystals on the surface and its entrance of the dentinal tubules, evidencing that the formulated paste enables the application and maintenance of bioglass on dentin surface. Its association with the Nd:YAG and CO2 laser seems to improve the interaction of these crystals with dentin, forming hydroxyapatite crystals. In this study. CO2 laser promoted better crystals distribution and conformation on dentin surface.

Biovidro. Vidro bioativo

CO2

Difração de raios-­X

DRX

Energia dispersiva de raios-­X, EDS

FTIR

Hiperensibilidade dentinária

Laser

MEV

Microscopia eletrônica de varredura

Nd:YAG

Bioglass

CO2

Dentin Hypersensitivity

Dispersive energy of X-­rays

DRX

EDS

Fourier transform infrared spectroscopy

FTIR

Laser

MEV

Nd:YAG

X-­ray diffraction

Étude de la corrosion atmosphérique du zinc et zinc-magnésium, en milieu marin / Study of atmospheric corrosion of zinc and zinc-magnesium in marine environment

Diler, Erwan

20 March 2012

Cette étude a pour objet d’apporter des éléments de compréhension quant à l’amélioration de la résistance à la corrosion des alliages de ZnMg(Al), en comparaison du Zn, en milieu atmosphérique chloré. Le cheminement de réflexion part de considérations fondamentales et tend vers des conditions réelles d’utilisation. La première étape a consisté à synthétiser et caractériser des films de ZnO dopé Mg et notamment l’évolution de la structure cristalline, la structure électronique, la résistivité, (…) avec le dopage. La pertinence de ces paramètres a ensuite été évaluée et discutée au regard de la stabilité de ces films en solution. Dans un second temps, les produits de corrosion formés, en laboratoire, en présence ou non de chlorures, sur des phases pures de Zn et ZnMg, ont été caractérisés. Les processus physico-chimiques liés à la formation de ces produits ont ensuite été discutés, afin de mettre en lumière le rôle du Mg dans l’amélioration de la résistance à la corrosion. La dernière étape, s’est attachée à caractériser des produits de corrosion formés après 6 mois en milieu naturel, en atmosphère marine, sur des phases pures de Zn et ZnMg, et des revêtements industriel de type ZnMgAl. Les résultats obtenus ont permis de mettre en évidence une meilleure stabilité en solution des films de Zn0.84Mg0.16O en comparaison du ZnO, en corrélation avec une présence accrue de liaisons hydroxyles, une augmentation de la résistivité et de la fonction de travail. Ces trois paramètres sont apparus également pertinents, sur les produits de corrosion formés en laboratoire et naturellement en présence de Mg et de Mg, Al, et corrélés à l’amélioration de la résistance à la corrosion. / The aim of this study was to provide some understanding about the improvement of the corrosion resistance of ZnMg and ZnMgAl alloys in comparison to Zn, in chloride content atmospheric environment, from fundamental considerations gradually towards the actual use of these materials. The first approach consisted in the synthesis and physicochemical characterization of films of magnesium doped zinc oxide and particularly the evolution of parameters such as the crystal structure, the electronic structure (band gap), the resistivity, (…) with doping. The relevance of these parameters was then evaluated and discussed regarding to the stability of these films in a solution of pH 8.4. The second stage focused on the characterization of corrosion products formed in the laboratory with or without chloride, on pure Zn and ZnMg. The physico-chemical processes related to the formation of these products were then discussed to highlight the role of Mg in the improvement of the corrosion resistance of ZnMg alloys in comparison with the Zn. The third and final stage consisted in the characterization of corrosion products formed in marine atmosphere on pure Zn and ZnMg, as well as on industrial coating-type ZnMgAl, after 6 months of exposure. The results obtained in this study showed a better stability in solution of solid solution films of Zn0.84Mg0.16O in comparison with the ZnO, correlated with the increase of hydroxyl bonds, associated with an increase of resistivity and work function. These three parameters appeared also relevant regarding the corrosion products formed naturally in the laboratory and in the presence of Mg and Mg-Al, and correlated with improvement of the corrosion resistance.

Corrosion atmosphérique

Zinc

Zinc-magnésium

Zinc-magnésium-aluminium

XPS

FTIR

DRX

MEB/EDX

Chromatographie Ionique

Spray Pyrolyse

Band gap

Résistivité

Fonction de travail

Atmospheric corrosion

Ionic Chromatography

Spray Pyrolysis

Resistivity

Work function

546.661 59

Etude de la diffusion réactive entre Mn et Ge à l'échelle nanométrique pour des applications en spintronique / Study of reactive diffusion between Mn and Ge at the nanoscale for spintronic applications

Abbes, Omar

28 February 2013

Le couplage des propriétés ferromagnétiques et semiconductrices représente une perspective prometteuse, afin de réaliser des technologies qui exploitent le spin des électrons. Ceci permettra de stocker et traiter des bits informatiques de façon instantanée dans le même dispositif, plutôt que dans des dispositifs séparés (mémoire et processeur). La Spintronique pourrait alors révolutionner la technologie de l'information. Un candidat potentiel pour la fabrication d'hétérostructures métal ferromagnétique/semiconducteur pour des applications en Spintronique, est le système Mn-Ge. Ce système qui est compatible avec la technologie CMOS, présente une phase intéressante pour la Spintronique qui est Mn5Ge3, avec une possibilité d'épitaxie sur le Ge(111). Afin d'intégrer cette phase dans des procédés de fabrication, nous étudions la diffusion réactive à l'état solide entre un film de Mn et un substrat de Ge (comme dans le cas de la formation des siliciures dans la technologie CMOS). L'accent a été mis sur la séquence de formation de phases lors de la réaction entre un film nanométrique de Mn et le Ge, l'influence de l'interface sur cette réaction, et sur la diffusion du Mn dans le Ge. L'incorporation du carbone dans des films minces de Mn5Ge3 a montré une augmentation notable de la température de Curie : nous présentons alors l'effet du carbone sur la réaction Mn-Ge, et sa redistribution dans les couches minces MnxGey. / Coupling ferromagnetic and semi-conducting properties represents a pathway toward producing technologies that exploit the spin of electrons. That would allow store and process computer bits instantly in a same device, rather than separate devices (memory and CPU). The Spintronics could then revolutionize the information technology. A potential candidate for the fabrication of heterostructures ferromagnetic metal / semiconductor for Spintronics applications is the Mn-Ge system. This system is compatible with CMOS technology, and presents an interesting phase for Spintronics which is Mn5Ge3 phase, which is able to be grown epitaxially on Ge(111). To integrate this phase in the manufacturing process, we study the solid state reactive diffusion between a thin Mn film and Ge substrate, to form a germanide upon the Ge substrate (as in the case of the formation of silicides in CMOS technology). Emphasis was placed on the sequence of phase formation during the reaction between a 50 nm thick Mn film and Ge, the influence of the interface on the reaction, and the diffusion of Mn in Ge. Incorporation of carbon in thin Mn5Ge3 films showed a significant increase in the Curie temperature, we then present the effect of carbon on the reaction Mn-Ge and its redistribution in thin MnxGey films.

Diffusion réactive

Spintronique

Mn

Ge

C

Formation séquentielle

Epitaxie

Redistribution

MBE

DRX in-situ

SIMS

SAT

MET

SQUID

AFM

Germaniures

Reactive diffusion

Spintronics

Mn

Ge

C

Germanides

Epitaxy

Redistribution

MBE

In-situ XRD

SIMS

Sequential formation

APT

TEM

SQUID

AFM

Understanding mechanical size effects in metallic microwires : synergy between experiment and simulation / Comprendre les effets de tailles mécaniques dans les microfils métalliques : synergie entre expérience et simulation

Purushottam Raj Purohit, Ravi Raj Purohit

19 October 2018

Les microfils métalliques polycristallins produits par étirage à froid présentent une résistance mécanique significative en faisant des candidats idéaux pour les renforts de composites. Des études antérieures sur des fils de nickel polycristallin pur ont montré une dépendance importante par rapport à la taille de la limite d'élasticité et de la résistance à la traction, ainsi que de la ductilité.Le but de cette étude est de comprendre cet effet de la taille dans les microfils de nickel pur polycristallin par analyse de diffraction des rayons X in-situ (DRX) et simulations de la plasticité cristalline par éléments finis (CPFE). Des essais de traction monotone et cyclique in-situ sous rayonnement synchrotron ont été réalisés sur des microfils de diamètres allant de 100 à 40 μm. Les fils étirés à 100 micromètres obtenus dans le commerce présentent une architecture cœur-coquille avec une texture de fibre <111> dominante dans le cœur et une texture à double fibre hétérogène <111> et <100> dans la coquille. La réduction de la taille de l'échantillon par polissage électrolytique conduit à des fils ayant une microstructure homogène, tandis que la réduction de la taille de l'échantillon par un étirage à froid supplémentaire conduit à des fils avec une texture plus intense tout en conservant l'architecture cœur-coquille.La limite d'élasticité et la résistance à la traction des fils électropolis augmentent avec la diminution du diamètre, tandis que la ductilité diminue avec la réduction du diamètre. Dans le cas des fils étirés à froid, on observe que la limite d'élasticité et la résistance à la traction, ainsi que la ductilité, augmentent avec la diminution du diamètre. L'analyse DRX indique une plasticité successive des familles de grains sous iso-déformation. Nous avons observé que le gradient de la texture du microfil active des mécanismes de déformation qui ne sont pas observés pour les microfils à texture homogène. Pour comprendre l'influence de différents paramètres microstructuraux, notamment l'influence de la texture cristallographique, une microstructure représentative 3D a été générée et des simulations CPFE ont été réalisées. Le comportement simulé moyen des différentes familles de grains (<111>, <100>) concorde bien avec les résultats expérimentaux. La simulation CPFE indique une hétérogénéité du champ de contrainte à travers la microstructure en présence d'un gradient de texture cristallographique.Nous montrons que la micro-texture (texture simple ou double texture) et leur dispersion spatiale (homogène ou architecturée) peuvent être utilisées comme stratégie de conception pour obtenir une microstructure optimale en fonction de l’ensemble désiré de propriétés mécaniques. / Polycrystalline metallic microwires produced by cold-drawing exhibit significant mechanical strength that make them ideal candidates for reinforcement of composites. Previous studies on polycrystalline pure nickel wires have indicated a significant size dependence of their yield and tensile strength as well as their ductility. The aim of this study is to understand these size effects by in-situ X-ray diffraction (XRD) analysis and crystal plasticity finite element (CPFE) simulations. In-situ monotonous and cyclic tensile tests under synchrotron radiation were carried on microwires with diameters ranging from 100 to 40 µm. The commercially obtained 100µm as-drawn wires exhibit a core-shell architecture with <111> fiber texture dominant in core and heterogeneous dual fiber texture <111> and <100> in the shell. Reduction of specimen size by electropolishing leads to wires having a homogeneous microstructure, whereas reduction of specimen size by further cold drawing leads to wires with a sharper texture while retaining the core-shell architecture.The yield and tensile strength of the electropolished wires increase with decreasing diameter, whereas the ductility decrease with decreasing diameter. In the case of cold-drawn wires, the yield and tensile strength, and also the ductility was observed to increase with decreasing diameter. The XRD analysis indicates successive yielding of grain families under iso-strain condition. The gradient in the texture of the microwire was seen to activate deformation mechanisms which are not seen for microwires with homogeneous texture. To understand the influence of different microstructural parameters, and notably the influence of crystallographic texture, 3D representative microstructure was generated and CPFE simulations were carried out. The simulated average behavior of different grain families (<111>, <100>) agrees well with the experimental results. The CPFE simulations indicate heterogeneity in stress field across the microstructure in the presence of a gradient in crystallographic texture.We show that the microstructure engineering of micro-texture components (single- or dual-texture) and their spatial spread (homogenous or architectured) can be used as design guidelines for obtaining optimal microstructure in accordance with desired set of mechanical properties.

Effets de taille

Polycristallin microfils de nickel

Étirage à froid

Électropolissage

DRX à haute énergie

Microtexture

Modélisation de la microstructure

Simulations CPFE.

Size effects

Polycrystalline nickel microwires

Cold-Drawing

Electropolishing

High energy XRD

Micro-Texture

Microstructure modeling

CPFE simulations

530.15

Síntese de catalisadores baseados em vanádio suportado em aluminas de transição modificadas por metais alcalinos e avaliação catalítica na reação de desidrogenação oxidativa do propano / Synthesis of vanadium-based catalysts supported on transition alumina modified with alkali metals and catalytic evaluation for oxidative dehydrogenation of propane reaction

Crivelaro, Vinicius Martin

21 October 2016

Em ultimas décadas, a conversão de alcanos leves em suas correspondentes olefinas tem sido objeto de intensas pesquisas, impulsionadas inclusive pelo aumento crescente da demanda do propileno como um importante produto petroquímico. A desidrogenação oxidativa (ODH) do propano representa uma via alternativa promissor para a produção de propeno, ao apresentar-se como uma reação exotérmica e não limitada termodinamicamente. Diferentes óxidos suportados ou mistos têm sido desenvolvidos com a finalidade de aumentar a atividade e seletividade em relação as olefinas. Metais alcalinos são importantes agentes promotores que proporcionam uma melhor seletividade as olefinas devido a redução da acidez e aumento da basicidade da superfície do catalisador. A proposta deste presente trabalho foi desenvolver metodologias de síntese de catalisadores de oxido de vanádio suportado em aluminas de diferentes fases cristalinas e dopados com sódio ou potássio a fim de avalia-los em testes catalíticos de desidrogenação oxidativa do propano. Para tanto, foram utilizadas as seguintes técnicas de caracterização: volumetria N2, difratometria de raios X (DRX) e redução a temperatura programada (RTP). As características acidas e/ou básicas dos suportes e catalisadores foram avaliadas pelas reações de decomposição de isopropanol. / In recent decades, the conversion of light alkanes to their corresponding olefins has been the subject of intense research, mainly driven by the increasing demand of propylene as an important petrochemical product. Oxidative dehydrogenation (ODH) propane is a promising alternative way to propylene production, which it is presented as an exothermic reaction and not limited thermodynamically. Different supported or mixed oxides have been developed in order to increase the activity and selectivity to olefins. Alkali metals are important promoters, which provide improved selectivity to olefins due to reduction of acidity and increasing basicity of the catalyst surface. The purpose of the present study was to develop synthesis methods of vanadium oxide catalysts supported on alumina of the different crystalline phases and doped with sodium or potassium in order to evaluate them in catalytic tests of propane oxidative dehydrogenation. For in such a way, the following characterization techniques were used: N2 volumetry, X-ray diffractometry (XRD) and temperature programmed reduction (TPR). The properties acid and/or basic of supports and catalysts were evaluated by the isopropanol decomposition reaction.

Decomposição de isopropanol

Desidrogenacao oxidativa do propano

DRX

Isopropanol Decomposition

N2 volumetry

Potássio e sódio como promotores

Potassium and sodium as promoters

Propane oxidative dehydrogenation

RTP

TRP

Volumetria de N2

XRD

Estudos estruturais de xerogéis de óxido de níquel. / Structural studies of niquel oxide xerogels.

Fischer, Hannes

07 February 2000

Foram estudadas as características estruturais de xerogéis obtidos pelo método sol-gel a partir de soluções líquidas precursoras compostas de cloreto de níquel (NiCl2), butanol, água e ácido acético, secos em estufa e tratados a diferentes temperaturas entre 150 e 900ºC. Nos tratamentos isotérmicos a essas temperaturas os elementos voláteis se desprendem do material inicial e transformações estruturais acontecem. Analisaram-se os materiais porosos resultantes (xerogéis) mediante técnicas estruturais: espalhamento de raios X a baixo ângulo (SAXS), espectroscopia de absorção de raios X (XANES e XAFS), difração de raios X (XRD) e microscopia eletrônica de varredura. Complementaram-se estes estudos mediante análise química (espectroscopia de infravermelho), térmica (análise térmica diferencial), gravimétrica (perda de massa) e de densidade. Os resultados experimentais demonstraram que a estrutura porosa do material inicial à base de NiCl2 se transforma numa estrutura bifásica, também porosa, composta por uma fase rica em NiCl2 e outra em óxido de níquel (NiO), sendo que a fração de volume ocupada pela fase de NiO no material final aumenta com a temperatura de tratamento térmico. No caso de temperaturas acima de 500ºC, praticamente todo o volume da amostra se transforma e é ocupado pela fase NiO. Mostrou-se que a estrutura porosa presente em todos os materiais, estudada por SAXS, é composta por nanoporos (10-150Å) e mesoporos (maiores que 150Å), sendo que a fração de volume ocupada pelos mesmos depende da temperatura do tratamento térmico. Em particular os nanoporos somente estão presentes nas amostras tratadas abaixo de 500ºC. A ordem local média ao redor dos átomos de Ni, determinada por EXAFS, corresponde ao esperado de sistemas bifásicos cujas frações de volume dependem da temperatura de tratamento, em concordância com os resultados de XRD. Investigaram-se as características dos materiais obtidos após os diferentes tratamentos térmicos em função de diferentes condições de preparação das soluções precursoras. Numa primeira série de experiências, variou-se o conteúdo de ácido acético na solução. Demonstrou-se que maiores concentrações de ácido acético promovem a formação de um material com estrutura mais compacta. Numa segunda série de experiências variou-se o conteúdo de água. Determinou-se que a quantidade de água afeta somente a estrutura dos materiais tratados a temperaturas inferiores à 500ºC. / Structural properties of several xerogels obtained by the sol-gel procedure and heat treated at different temperatures between 150 and 900ºC were studied. The initial systems were dry gels prepared from liquid solutions composed of nickel chloride, buthanol, water and acetic acid. During the different isothermal treatments, volatile species leave the inicial material and structural transformations occur. The resulting porous materials (xerogels) were studied by means of several structural techniques: small angle X ray scattering (SAXS), X ray absorption spectroscopy (XANES and EXAFS), X ray diffraction (XRD) and scanning electron microscopy. These studies were complemented with chemical analysis (infrared spectroscopy), differential thermal analisis, mass loss and density measurements. The experimental results demonstrated that the porous structure of the starting material, based on nickel chloride, transforms in a also porous biphasic structure composed of nickel chloride and nickel oxide, respectively, rich fase. The volume fraction occupied by the nickel oxide rich fase of the final material increases with temperature of heat treatment. For temperatures above 500ºC, practically all the sample volume transforms and is occupied by the NiO phase. It was demonstrated that the porous structure of all materials, studied by SAXS, is composed of nanopores (sizes ranging from 10 to 150Å ) and mesopores (larger than 150Å), their fraction depending on the heat treatment temperature. Particularly, nanopores are only present in samples treated below 500ºC. The average local order close to nickel atoms, determined by EXAFS, corresponds to the expected one for biphasic systems whose volume fractions depend on treatment temperature, in agreement with XRD results. The structural properties of the several materials obtained after different heat treatments were studied as functions of preparation conditions of precursor solutions. In a first series of experiments, acetic acid content in the solution was varied. It was demonstrated that higher acetic acid content promotes the formation of more compact structures. In a second series of experiments, water content was varied. It was concluded that water content only affects the structure of the materials heat treated at temperatures below 500ºC.

angle

bifásico

byphasic

drx

espalhamento

exafs

fase

lnls

níquel

oxide

óxido

phase

sas

saxs

scattering

sistema

small

sol gel

sol-gel

solution

system

transição

transition

X-ray

xafs

xerogel

xrd

EFEITO DO TRATAMENTO ÁCIDO EM MEIO AQUOSO E ALCOÓLICO NA MODIFICAÇÃO DO AMIDO DE PINHÃO (Araucaria angustifolia)

Siqueira, Geisa Liandra de Andrade de

09 February 2017

Submitted by Angela Maria de Oliveira (amolivei@uepg.br) on 2018-11-06T17:35:07Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Geisa Liandra.pdf: 3414564 bytes, checksum: b9fc4d1a56d56c9c5c38f3f88871810e (MD5) / Made available in DSpace on 2018-11-06T17:35:07Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Geisa Liandra.pdf: 3414564 bytes, checksum: b9fc4d1a56d56c9c5c38f3f88871810e (MD5) Previous issue date: 2017-02-09 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Araucaria angustifolia (Bert.) O. Kuntze é uma conífera presente nas florestas brasileiras e as suas sementes apresentam alto teor de amido. Os pinhões utilizados nesta pesquisa foram provenientes de materiais genéticos e selecionados com base em testes preliminares por apresentarem temperatura de gelatinização inferior a 60ºC. Esta é considerada uma característica interessante e vantajosa, podendo economizar tempo e energia durante o processo de gelatinização do amido. O amido na sua forma natural apresenta limitações, portanto uma das alternativas é a hidrólise ácida que tem o intuito de alterar as suas propriedades físico-químicas. Este tratamento aliado a solução alcoólica apresenta a capacidade de recuperar grande parte do grânulo. O objetivo deste estudo foi identificar os efeitos da modificação ácida em meio aquoso e alcoólico de amidos de pinhão (A. angustifolia) com temperaturas de gelatinização abaixo de 60 ºC. As amostras foram avaliadas quanto ao pH e Colorimetria, por análise térmica (TG-DTA e DSC), pelo comportamento reológico (RVA), por análises estruturais (DRX e MEV) e por análises estatísticas (ANOVA e Tukey). A recuperação do grânulo de amido foi maior no meio aquoso e no meio alcoólico os valores ficaram próximos a 90% de recuperação. Os valores de pH comprovaram que o processo eliminou o ácido utilizado na modificação e a colorimetria identificou a coloração branca e levemente amarela para ambos os acessos, mostrando que os tratamentos não alteraram as características colorimétricas dos amidos de pinhão. Nas curvas TGDTA em ar sintético foram observadas três perdas de massa. As amostras nativas apresentaram diferença no DTA e as temperaturas finais demonstraram maior resistência térmica dos amidos. Nas curvas TG-DTA em nitrogênio foram encontradas duas perdas de massa. As amostras tratadas apresentaram semelhança no DTA e as temperaturas finais não foram alteradas devido à atmosfera inerte. Na análise de DSC, a Tc e a ∆Hgel não apresentaram diferenças significativas, apenas no To e Tp. Os tratamentos mais intensos mostraram leve resistência térmica e menor ∆Hgel. No RVA foi observado redução nos parâmetros de viscosidade conforme a intensidade do tratamento. O DRX identificou o padrão do tipo C para os amidos e a cristalinidade relativa aumentou conforme a intensidade da hidrólise ácida. Pelo MEV foram observadas alterações superficiais nos grânulos. Diante dos resultados encontrados, os amidos de pinhão demonstraram ser promissores para aplicações industriais visando specialties, ou seja, para produtos com escala reduzida. O intuito é estimular os pequenos produtores, proporcionar agregação de valor ao produto final e a manutenção da espécie A. angustifolia. / Araucaria angustifolia (Bert.) O. Kuntze is a conifer present in Brazilian forests and its seeds are high in starch. The pinhões used in this research were derived from genetic material and selected based on preliminary tests because they presented a gelatinization temperature below the 60 ºC. This is considered an interesting and advantageous feature, which can save time and energy during the starch gelatinization process. Starch in its natural form has limitations, so one of the alternatives is acid hydrolysis, which has the purpose of altering its physicochemical properties. This treatment combined with alcoholic solution has the ability to recover majority of the granule. The aim of this study was to identify the effects of acidic modification on aqueous and alcoholic solutions of pinhão starches (A. angustifolia) with gelatinization temperatures below of 60 ºC. The samples were evaluated for pH and Colorimetry by thermal analysis (TG-DTA e DSC), by rheological behavior (RVA), by structural analysis (XRD and SEM) and by statistical analysis (ANOVA and Tukey). The recovery of the starch granule was higher in the aqueous medium and in the alcoholic solution; the values were close to 90% recovery. The pH values showed that the process eliminated the acid used in the modification and the Colorimetry identified the white and slightly yellow coloration for both accessions, showing that the treatments did not alter the colorimetric characteristics of the pinhão starches. In the TG-DTA curves in synthetic air, three mass losses were observed. The native samples presented a difference in the DTA and the final temperatures showed a higher thermal resistance of the starches. In the TG-DTA curves in nitrogen, two mass losses were found. The treated samples showed similarity in DTA and the final temperatures were not changed due to the inert atmosphere. In the DSC analysis, Tc and ΔHgel did not show significant differences, only in To and Tp. The most intense treatments showed light thermal resistance and lower ΔHgel. In the RVA, a reduction in the viscosity parameters was observed according to the intensity of the treatment. XRD identified the type C pattern for starches and relative crystallinity increased as the acid hydrolysis rate increased. Superficial changes in the granules were observed by SEM. Considering the results found, the pinhão starches demonstrated to be promising for industrial applications aiming specialties, that is, for products with reduced scale. The intention is to stimulate small producers, provide benefits to the final product and the maintenance of the species A. angustifolia.

amido modificado

modificação ácida aquosa e alcoólica

TG-DTA

DSC

RVA

DRX

MEV

modified starch

aqueous and alcoholic acid modification

TG-DTA

DSC

RVA

XRD

SEM

Caractérisations mécaniques et microstructurales des films de zircone obtenus par MOCVD et Sol-Gel / Mechanical and microstructural characterizations of zirconia thick films obtained by MOCVD and Sol-Gel

Jouili, Mohamed

28 June 2011

L’objectif fondamental de cette étude est de montrer la faisabilité de l’élaboration des couches épaisses de zircone non dopée, en contrôlant la microstructure et l’état mécanique, par MOCVD et par Sol-Gel. Dans un premier temps, nous avons essayé d’optimiser les conditions de dépôt de MOCVD, en faisant varier ou en jouant sur les différents paramètres du procédé, conduisant à l’obtention des couches de ZrO2 micrométriques et denses. La stabilité de la phase quadratique de la zircone est conditionnée par la pression partielle en oxygène, la température du substrat ainsi que l’épaisseur du dépôt. La texture cristallographique de type {100} est obtenue pour les dépôts réalisés à une température de substrat T ≤ 850°C et pour de faibles pressions totales. Concernant l’état mécanique des couches de zircone, l’augmentation de l’épaisseur de la couche peut relaxer les contraintes résiduelles de tension au sein du dépôt. Ce phénomène s’accentue au-delà d’une épaisseur critique suite à la création des espacements entre les colonnes de croissance de la couche. Parallèllement, nous avons montré que la qualité des dépôts Sol-Gel est maitrisée par le choix du substrat, l’utilisation de « sols » vieillis, la multiplication du nombre de couches « spin-coating », le mode de dépôt ainsi que la température de recuit. Certaines propriétés caractéristiques du dépôt telles que la cristallisation, la composition de phase et l’adhérence sont aisément contrôlées respectivement par l’âge du sol, la température de recuit et le coefficient de dilatation thermique associé au substrat utilisé. La microstructure (changement de phases, taille des cristallites, texture cristallographique) et les contraintes internes (thermiques et intrinsèques) ont été caractérisées. Le Sol-Gel présente l’avantage de proposer des couches de zircone très peu contraintes par rapport aux films obtenus par le procédé MOCVD. Quel que soit le procédé de dépôt, MOCVD et/ou Sol-Gel, l’élaboration des films de ZrO2 orientés demeure fonction de la température du traitement. La tentative d’élaborer des multicouches de zircone par un couplage MOCVD/Sol-Gel montre la possibilité de sélectionner des paramètres de dépôt propices à la fabrication d’un film présentant un état microstructural et mécanique contrôlé et voulu. / The fundamental purpose of this study is to demonstrate the feasibility to obtain an undoped zirconia thick film, by controlling the microstructure and mechanical state, using MOCVD and Sol-Gel technique. Firstly, we try to optimize the MOCVD deposition conditions, by varying the different process parameters, leading to the production of ZrO2 micrometric and dense films. The stability of the tetragonal zirconia phase depends on the oxygen partial pressure, the substrate temperature and the film thickness. The crystallographic texture of {100} type is obtained for the deposits obtained under a substrate temperature T ≤ 850°C and a low total pressure. Concerning mechanical state of the zirconia films, the thickness increasing can relax the tensile residual stress within the deposit. This phenomenon accents beyond a critical thickness due to the creation of columns spaces during film growth. In the second part, we show that the quality of the Sol-Gel deposition is controlled by substrate origin, use of aged sol, increase of “spin-coating” layers number, deposition mode and annealing temperature. Some deposit characteristics such as crystallization, phase composition and film adhesion are easily controlled by sol aging, annealing temperature and thermal expansion coefficient associated to the used substrate, respectively. The microstructure (phase change, crystalline size, crystallographic texture) and the internal stresses (thermal and residual) were characterized. The Sol-Gel technique has the advantage of providing zirconia films with low stress level compared to the films obtained by MOCVD. Regardless of the deposition process, MOCVD and / or Sol-Gel, the development of ZrO2 oriented films is in function of the treatment temperature. The attempt to get multilayer zirconia by coupling MOCVD/Sol-Gel methods shows the possibility to choose the deposition parameters in order to produce films with controlled and wanted microstructure and mechanical state.

MOCVD

Sol-Gel

Films épais

Croissance cristalline

Transformation de phases

Contraintes thermiques

Texture cristallographique

DRX en fiable incidence

Thick films

Crystal growth

Phase transformation

Residual stresses

Thermal stresses

Crystallographic texture

Grazing incidence

XRD (GIXRD)

Élaboration et caractérisation de nouveaux matériaux d'électrodes pour pile à combustible à membrane échangeuse de protons : catalyseurs à base de tungstène supportés sur un dérivé du graphite expansé / Elaboration and characterization of novel electrode materials for the Proton Exchange Membrane Fuel Cell : tungsten-based catalysts supported on an Expanded-Graphite derivat

Hugot, Nathalie

03 June 2013

Ce travail s'inscrit dans les thématiques matériaux carbonés et matériaux pour l'énergie. Il s'agit d'une part de remplacer tout ou partie du platine, catalyseur de la pile à combustible basse température, par des matériaux moins coûteux et plus abondants ; et d'autre part d'optimiser l'accessibilité des sites catalytiques aux réactifs. WCl6 est imprégné en phase gazeuse en présence de dichlore sur un support dérivé du graphite expansé, avant d'être réduit/carburé afin d'obtenir des dérivés du tungstène (tungstène, carbures de tungstène). La taille et la nature des nanoparticules dépendent de la composition du gaz utilisé (H2 ou mélange H2/CH4) et de la température de réaction. En présence de H2, la réduction est complète à partir de 550°C. L'utilisation d'un mélange gazeux H2/CH4 (90/10, 85/15 ou 80/20) conduit à l'élaboration de nanoparticules de W2C et WC. L'augmentation de la température favorise le frittage des particules mais pas la carburation complète. Les tests en demi-pile effectués sur ces catalyseurs révèlent qu'ils sont peu performants. Des catalyseurs mixtes Pt-W2C sont obtenus en déposant successivement PtCl4 et WCl6. La réduction - carburation est réalisée à 900°C en présence d'un mélange H2/CH4 (85/15). Ces matériaux possèdent des performances électrocatalytiques bien supérieures à celles d'un catalyseur commercial pour un taux de platine équivalent. Ce travail concerne également la fonctionnalisation du support carboné par des groupements sulfonate. Le greffage de polystyrène sulfonate est efficace car il permet de diminuer la quantité de Nafion utilisée dans les électrodes et d'améliorer les performances catalytiques / This work is implicated in the development of carbon materials and of materials for energy applications. In the first part, we aim to totally or partially replace the platinum catalyst of the Proton Exchange Membrane Fuel Cell by less expensive and more abundant materials. In the second part, we optimize the catalytic sites accessibility for the reactants. WCl6 was impregnated on the Expanded Graphite derivated substrate by gaseous transport under chlorine pressure before being reduced and/or carburized in order to obtain tungsten derivatives (tungsten, tungsten carbides). The nature and size of the nanoparticles depend on the reducing or carburizing gas composition (H2 or H2/CH4 mixture) and the reaction temperature. Reduction is not complete until 500°C when using H2. W2C and WC mixtures are formed when using H2/CH4 mixtures (90/10, 85/15 or 80/20). The temperature increasing favours the sintering effect but not the complete carburization. All these obtained catalysts show low electrocatalytic performances when tested on a half-cell system. Platinum-tungsten hemicarbides catalysts were obtained by a successive deposition of PtCl4 and WCl6 while the reduction-carburization step was realized at 900°C under H2/CH4 mixture (85/15). These materials show higher electrocatalytic performances than a commercial platinum catalyst for an equivalent platinum ratio. The final part of this work concerns the carbon support functionnalization with sulfonate groups. Polystyrene sufonate grafting seems efficient for it helps to reduce the Nafion quantities used in the electrodes and to increase the electrocatalytic performances

PEMFC

DRX

MET

PEMFC

Pt-tungsten hemicarbides catalysts

Functionnalization of a carbon surface

XRD

TEM

Cyclic voltammetry

541.372 4

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