Estudo das propriedades estruturais dos catalisadores de Cu e Cu-Ce suportados em alumina aplicados à reação de deslocamento gás-água

Caldas, Paula Cristina de Paula

12 March 2013

Made available in DSpace on 2016-06-02T19:56:50Z (GMT). No. of bitstreams: 1 5035.pdf: 2696735 bytes, checksum: 1e1df725e495abb44c7ceab896e17284 (MD5) Previous issue date: 2013-03-12 / Universidade Federal de Sao Carlos / Particle size effect and Ce addition on the catalytic properties of Cu/Al2O3catalysts were investigated for the water gas shift reaction (WGS). The catalysts were prepared by dry impregnation of an aqueous solution of nitrates of the respective metals on alumina, synthesized by sol-gel method. Samples were prepared with 5, 10 and 15% w/w of metallic copper and 12% w/w of CeO2. The catalysts were characterized by X-ray diffraction (XRD), temperature programmed reduction (TPR) spectroscopy, X-ray absorption (XAS). The WGS reaction was performed with reagents ratio of H2O:CO = 1:3 with temperature range from 200 to 350° C. The crystallites CuO were not detected by XRD. As the Cu content increased, the crystallite size of CeO2 decreased with a fluorite type structure from 7.4 to 3.4 nm. The results of TPR showed that the interaction Cu-O-Al was crucial to reduce temperature and ceria addition on the catalysts did not affect the temperature reduction of the CuO. The XANES in situ results along the WGS reaction showed that metallic Cu predominated and ceria was partially reduced. EXAFS results showed that the Cu particle size increased from 0.65 to 0.91 nm with an increased load of copper from 5 to 15%, respectively. After the reduction, step prior to reaction, the catalysts were not completely reduced. The degree of reduction increased with the Cu particle size and it was also dependent on the temperature and the oxidation potential of mixing of the reactants. The addition of ceria did not change the degree of reduction of samples Cu/Al2O3. The results suggest that the Cu particles have a reduced Cu core covered with an oxide layer. The catalytic activity increased as the Cu particle size decreased, which can be associated with the presence of the redox couple Cu+/Cu0. This provides a possibility of CO oxidation and its reoxidation due to water activation. The ceria addition also increased catalytic activity and it is probably attributed to activation of the water on the surface of ceria, followed by transfer of oxygen from its structure to the oxidation of CO in an interface Cu-CeO2. / O efeito do tamanho da partícula de Cu e a adição de céria nas propriedades catalíticas dos catalisadores de Cu/Al2O3 foram investigados para a reação de deslocamento gás água (WGS). Os catalisadores foram preparados por impregnação da solução alcoólica dos respectivos nitratos dos metais em alumina, sintetizada pelo método sol-gel. As amostras foram preparadas com teores de Cu de 5, 10 e 15% m/m e 12% m/m de CeO2. Os catalisadores foram caracterizados por difração de raios X (DRX), redução a temperatura programada (TPR) e espectroscopia de absorção de raios X (XAS). A reação de WGS foi realizada com a razão de reagentes H2O:CO = 3:1 em temperaturas entre 200 e 350ºC . Os cristalitos de CuO não foram detectados por DRX. Com o aumento do teor de Cu de 5 para 15% m/m verificou-se um decréscimo no tamanho de cristalitos de CeO2 com uma estrutura do tipo fluorita de 7,4 para 3,4 nm. A interação Cu-O-Al foi determinante na temperatura de redução dos catalisadores e a adição da céria não afetou a temperatura da redução do CuO. Os resultados de XANES in situ mostraram que ao longo da reação de WGS o Cu na forma metálica foi predominante e a céria encontrava-se parcialmente reduzida. Os resultados de EXAFS mostraram que o tamanho das partículas de Cu aumentou de 0,65 para 0,91nm com o aumento do teor do cobre de 5 para 15%, respectivamente. Após a etapa de redução que antecede a reação, os catalisadores não se encontraram completamente reduzidos. O grau de redução aumentou com o tamanho da partícula de Cu e mostrou-se dependente também da temperatura e do potencial de oxidação da mistura dos reagentes. A adição da céria não modificou o grau de redução das amostras de Cu/Al2O3. Tais resultados sugerem que as partículas de cobre apresentam um núcleo reduzido com óxido de cobre na superfície. A atividade catalítica aumentou com a diminuição do tamanho de partícula de Cu, o que pode estar associado à maior presença do par redox Cu+/Cu0 nas menores partículas. Este possivelmente proporciona a oxidação do CO, reduzindo o Cu+ ao Cu0 e a reoxidação ocorre devido à ativação da água. A adição da céria também aumentou a atividade catalítica, a qual foi atribuída provavelmente à ativação da água nas vacâncias de oxigênio da céria, seguida da transferência de oxigênio de sua estrutura para a oxidação do CO em uma interface Cu-CeO2.

Catalisadores

Catalisadores de cobre

Céria

XAS in Situ

Reação de deslocamento gás-água

Copper catalysis

Ceria

Water gas shift

XAS in situ

ENGENHARIAS::ENGENHARIA QUIMICA

Síntese e caracterização de nanobarras de céria suportadas em carbono para a eletrogeração de peróxido de hidrogênio e aplicação em processos eletroquímicos oxidativos avançados

Pinheiro, Victor dos Santos

January 2018

Orientador: Prof. Dr. Mauro Coelho dos Santos / Dissertação (mestrado) - Universidade Federal do ABC. Programa de Pós-Graduação em Ciência e Tecnologia/Química, 2018. / Este trabalho visou sintetizar eletrocatalisadores baseados em nanobarras de céria (NR CeO2) suportadas em carbono Vulcan XC-72, em diferentes proporções mássicas. Caracterizar e avaliar suas eficiências, na reação de redução de oxigênio (RRO) tendo como objetivo o mecanismo 2-elétrons, ou seja, a eletrogeração de H2O2, pela técnica de eletrodo de disco-anel rotatório (RRDE). Além disso, realizaram-se as confecções de eletrodos de difusão gasosa (EDG) com o eletrocatalisador mais promissor tendo em vista a avaliação da capacidade de produção de H2O2, em comparação a um EDG de carbono Vulcan XC-72 aplicando-se em processos eletroquímicos oxidativos avançados (PEOAs) na degradação do paracetamol. Pelo estudo da RRO utilizando a técnica de RRDE, concluiu-se que houve uma grande melhora na eletrogeração de H2O2 suportando 1% de NR CeO2 no carbono Vulcan XC-72 devido ao efeito sinérgico entre baixa concentração de NR CeO2 e o carbono Vulcan XC-72. Esse eletrocatalisador mostrou um menor potencial de início da RRO, quando comparado ao do carbono Vulcan XC-72, com transferência de 2,1 elétrons na RRO e conversão de 95% do gás oxigênio (O2) em H2O2, enquanto o carbono Vulcan XC-72 foi capaz de converter apenas 54% de O2 em H2O2. O EDGCe confeccionado produziu 1463 mg L-1 de H2O2, enquanto o EDGV produziu apenas 490 mg L-1, em 2 horas de eletrólise no potencial -2,7 V vs. Ag/AgCl. O EDGCe foi aplicado em diferentes PEOAs visando a mineralização do paracetamol em uma célula eletroquímica de 350 mL, com taxas de mineralização de até 98,4% após 6 horas, o que indica ser um promissor EDG a ser utilizado em PEOAs. / This work aimed to synthesize electrocatalysts based on ceria nanorods (CeO2 NR) supported on Vulcan XC-72 carbon, in the different mass proportions. Characterize and evaluate its efficiencies, in the oxygen reduction reaction (ORR) aiming the 2-electron mechanism, ie, H2O2 electrogeneration, by the rotating ring-disc electrode (RRDE) technique. In addition, the gas diffusion electrodes (GDE) were made with the most promising electrocatalyst having as reference the evaluation of the H2O2 production capacity, compared to a Vulcan XC-72 carbon GDE applying in electrochemical advanced oxidative processes (EAOPs) in the degradation of paracetamol. By the ORR study using the RRDE technique, it was concluded that there was a great improvement in the H2O2 electrogeneration supporting 1% of CeO2 NR in the Vulcan XC-72 carbon due to the synergistic effect between low concentrations of NR CeO2 and Vulcan XC-72 carbon. This electrocatalyst showed a lower initial potential of ORR, when compared to of the Vulcan XC-72 carbon, with transfer of 2.1 electrons and conversion rate of 95% of the oxygen gas (O2) into H2O2, while the Vulcan XC-72 carbon was able to convert only 54% of O2 into H2O2. The prepared GDECe produced 1463 mg L-1 of H2O2, while GDEV produced only 490 mg L-1 of H2O2, in 2 hours of electrolysis in the potential -2.7 V vs. Ag/AgCl. The GDECe was applied in different EAOPs aiming at the mineralization of paracetamol in a 350 mL electrochemical cell, with mineralization rates up to 98.4% after 6 hours, indicating that it is a promising GDE to be used in EAOPs.

NANOBARRAS DE CÉRIA

eletrodo de difusão gasosa

CERIA NANORODS

HYDROGEN PEROXIDE ELECTROGENERATION

GAS DIFFUSION ELECTRODE

Processamento, microestrutura e propriedades de compósitos à base de cobre reforçados com alumina e céria / Processing, microstructure and properties of the copper-based composites reinforced with alumina and ceria

Daniela Passarelo Moura da Fonseca

31 August 2018

Compósitos de matriz metálica combinam diferentes classes de materiais a fim de obter novas propriedades, superiores às dos materiais originais. A adição de partículas cerâmicas (reforço) em ligas de cobre pode melhorar suas propriedades mecânicas sem gerar grande perda na condutividade elétrica. Este trabalho teve como objetivo processar e estudar a microestrutura e propriedades (condutividade elétrica, dureza e fratura) de compósitos à base de cobre reforçados com alumina e céria. As amostras foram processadas pela técnica de metalurgia do pó: pesagem, mistura (sem bolas por 30min a 46 rpm), compactação (uniaxial à frio com pressão de 1080 Mpa por 10s) e sinterização (800°C por 6h sob vácuo de 10-5 torr). As análises de MO, MEV, EDS e DRX (com refinamento Rietveld) indicaram boa coalescência das partículas, formando superfície continua e com baixa porosidade. A alumina formou regiões aglomeradas da ordem de 20 μm, a céria ficou finamente dispersa nos contornos de grão do cobre com algumas regiões aglomeradas, o cromo formou regiões de cerca de 100 μm e não teve distribuição completamente uniforme ao longo da matriz, a prata formou solução sólida com o cobre e, durante o resfriamento lento, formou precipitados menores do que 5 μm uniformemente dispersos no interior dos grãos de cobre. Os compósitos apresentaram condutividade elétrica entre 15 e 40 %IACS, dureza entre 62 e 88 HV5 e as fractografias apresentaram fratura mista e regiões indicando boa adesão matriz-reforço. Em relação ao cobre puro, foi observado efetivo aumento na dureza (cerca de 2x), porém, em todos os compósitos, o acréscimo da fase cerâmica acarretou na diminuição da condutividade elétrica. Os compósitos de Cu-8%(Al2O3, CeO2) foram os que apresentaram melhor equilíbrio entre essas duas propriedades, com condutividade de 40 e 38 %IACS e dureza de 63 e 69 HV5. / Metal matrix composites combine different classes of materials to obtain new properties, superior to those of the original materials. The addition of ceramic particles (reinforcement) in copper alloys could improve their mechanical properties without generating great loss in electrical conductivity. The aim of this work was to process and study the microstructure and properties (electrical conductivity, hardness and fracture) of copper-based composites reinforced with alumina and ceria. The samples were processed by the powder metallurgy technique: weighing, blending (no balls for 30 min at 46 rpm), compaction (cold uniaxial at 1080 MPa for 10s) and sintering (800°C for 6 h under vacuum of 10-5 torr). Analysis of OM, SEM, EDS and XRD (with Rietveld refinement) indicated good coalescence of the particles, forming continuous surface with low porosity. The alumina formed agglomerated regions with approximately 20 μm, the ceria was finely dispersed in the grain boundary of the copper with some agglomerated regions, the chromium formed regions of about 100 μm and have a non-uniform distribution throughout the matrix, the silver formed solid solution with copper and, during slow cooling, formed precipitates smaller than 5 μm, uniformly dispersed inside the copper grains. The composites presented electrical conductivity between 15 and 40 %IACS, hardness between 62 and 88 HV5 and the fractographs presented mixed fracture and regions indicating good matrix-reinforcement adhesion. In relation to pure copper, it was observed an increase in hardness (about 2x), however, in all the composites, the increase of the ceramic content led to a decrease in the electrical conductivity. The Cu-8%(Al2O3, CeO2) composites showed the best balance between these two properties, with conductivity of 40 and 38 %IACS and hardness of 63 and 69 HV5.

alumina

céria

cobre

compósito de matriz metálica

condutividade elétrica

dureza

fratura

microestrutura

alumina

ceria

copper

electrical conductivity

fracture

hardness

metal matrix composite

microstructure

Estudos de síntese e processamento de compósitos de óxido de níquel-céria dopada utilizados como anodo de células a combustível de óxido sólido de temperatura intermediária (IT-SOFC) / Synthesis and processing study of nickel oxide doped ceria composites used as anode of intermediate temperature solid oxide fuel cells (IT-SOFC)

Alexander Rodrigo Arakaki

23 July 2014

Este trabalho compreendeu os estudos de síntese química de pós por via úmida, de processamento cerâmico e de redução do óxido de níquel contido nos compósitos de céria dopada com samária e gadolínia, aplicados, principalmente, como anodos de Células a Combustível de Óxido Sólido. A rota adotada para a preparação dos pós com composição Ce0,8(SmGd)0,2O1,9/NiO e proporção em massa de 40 : 60% foi a coprecipitação de hidróxidos associada ao tratamento solvotérmico, utilizando-se como matérias-primas cloretos de cério, níquel, samário e gadolínio. O surfactante aniônico brometo de cetil trimetil amônio (CTAB) também foi utilizado na etapa de precipitação na relação molar Metal / CTAB entre 1 e 3. A influência do solvente orgânico utilizado no tratamento solvotérmico dos pós foi analisada utilizando o etanol, propanol e o butanol, nas condições de temperatura de 150ºC por 16 h, com e sem calcinação a 600ºC por 1h, e moagem em moinho de bolas. As amostras compactadas foram sinterizadas em temperaturas entre 1200 e 1400ºC por 1h. A redução in situ do NiO-SGDC foi estudada na amostra cerâmica preparada nas seguintes condições: síntese por coprecipitação usando ou não o CTAB, tratamento solvotérmico em butanol, calcinação a 600ºC, prensagem e sinterização a 1350ºC por 1h. O processo de redução das amostras sintetizadas em butanol foi avaliado em forno tubular em atmosfera dinâmica de 4%H2/Ar, fixando-se a temperatura a 900°C e variando-se o tempo entre 10 e 120 minutos. A redução também foi relizada nos compósitos sintetizados utilizando o CTAB na proporção Metal/CTAB = 2, tratados termicamente em etanol e butanol, após calcinação, prensagem e sinterização em forno tubular sob atmosfera de H2/Ar em isotermas de 700, 800 e 900°C por períodos entre 2 e 240 minutos. Os pós, as cerâmicas e os compósitos sintetizados em laboratório foram comparados com os materiais compósitos produzidos com pós de origem comercial. A caracterização dos pós foi realizada por difração de raios X (DRX), microscopia eletrônica de varredura (MEV), área de superfície específica por adsorção gasosa de nitrogênio (BET), análise térmica (TG/DTA) e distribuição granulométrica por espalhamento de feixe laser (Cilas). As cerâmicas foram analisadas por microscopia eletrônica de varredura, DRX e medidas de densidade pela técnica de imersão em água (método de Arquimedes). As cerâmicas e os compósitos foram caracterizados eletricamente por medidas de resistência elétrica pelo método de quatro pontas DC. Os resultados mostraram que os pós sem calcinação apresentaram as estruturas cristalinas características da céria e do hidróxido de níquel, e elevada área de superfície específica (80 m2/g). As cerâmicas provenientes dos pós tratados com etanol e propanol apresentaram boa homogeneidade química, estrutural e valores de densidade de 99% em relação a densidade teórica. Verificou-se que 80 a 90% do NiO é reduzido e as porosidades atingidas pelos compósitos são da ordem de 30%. A caracterização elétrica mostrou que a condutividade iônica da fase cerâmica do anodo, sintetizado solvotermicamente em butanol, possui valor de 0,03S.cm-1 na temperatura de 600°C, valor superior aos encontrados na literatura. A caracterização elétrica dos compósitos reduzidos revelou alta condutividade elétrica característica do níquel metálico, indicando percolação adequada da fase de níquel e distribuição homogênea de ambas fases cerâmica e metálica. As rotas de síntese e os materiais estudados são, portanto, adequados para a aplicação como anodo das IT-SOFCs. / This work comprises studies of powder chemical synthesis by wet route, ceramic processing and reduction of nickel oxide added to samaria and gadolinia doped ceria ceramic composite, mainly applied as Solid Oxide Fuel Cells anode. The route adopted for the powders preparation with composition Ce0.8(SmGd)0.2O1.9/NiO and mass ratio of 40:60% was hydroxides coprecipitation and solvothermal treatment, using as start materials the cerium, nickel, samarium and gadolinium chlorides. The anionic surfactant cetyltrimethylammonium bromide (CTAB) was also used in the precipitation stage with the molar ratio Metal/CTAB ranging between 1 and 3. The influence of organic solvent used in the powders solvothermal treatment was analyzed by using ethanol, propanol and butanol at temperature of 150°C for 16h, with and without calcination at 600°C for 1h, and grinding in a ball mill. The compacted samples were sintered at temperatures between 1200 and 1400°C for 1h. The in situ reduction of NiO-SGDC was studied in the samples synthesized by coprecipitation using CTAB and without it, followed by solvothermal treatment in butanol, calcined at 600°C, pressed and sintered at 1350°C for 1h. The reduction procedure was evaluated in a tubular oven and atmosphere of 4% H2/Ar, setting the temperature at 900°C and time range between 10 and 120 minutes. The composites synthesized using the CTAB in the proportion of Metal/CTAB = 2, followed by solvothermal treatment in ethanol and butanol, after calcining, compaction and sintering, was also reduced in a tubular oven and atmosphere of 4% H2/Ar, setting the temperature at 700, 800 and 900°C and time range between 2 and 240 minutes. The powders, ceramics and the sinterized cermets syntesized in laboratory were compared to the materials produced with comercial powders. The powders characterization was performed by X-ray diffraction (XRD), scanning electron microscopy (SEM), specific surface area by nitrogen gas adsorption (BET), thermal analysis (TG / DTA) and particle size distribution by scattering beam laser (Cilas). Ceramics were analyzed by scanning electron microscopy (SEM), XRD and density measurements by the technique of immersion in water (Archimedes method). The ceramics and cermets condutivity was characterized by the four probe DC method. The results obtained showed that the powders without calcination presented the crystal structures characteristics of ceria and nickel hydroxide, and high specific surface area (80m2/g) . The ceramic prepared from powders treated with ethanol and propanol had a high chemical and structural homogeneity and density values corresponding to 99% of the theoretical density. It was found that 80 to 90 % of NiO is reduced and the porosity of the composite reached about of 30 %. The anode ceramic phase synthesized solvothermically in butanol presented electrical conductivity of 0.03S.cm-1 at 600°C, higher than found at literature. The reduced cermets electrical characterization showed high electrical conductivity feature of metallic nickel, indicating the nickel phase good percolation and homogeneous distribution of both ceramic and metallic phases. Considering all these results, the synthesis routes and studied materials are suitable for use as the anode IT- SOFCs.

anodo

cerâmica

céria-samária-gadolínia-níquel

compósito

coprecipitação

hidróxidos, processamento

síntese

SOFC

anode

ceramic processing

composites

coprecipitation

SOFC

synthesis

Electromouillage et fiabilité : investigation de matériaux diélectriques et de couches minces hydrophobes / Electrowetting and reliability : investigation of dielectric materials and hydrophobic thin films

Bonfante, Gwenaël

14 December 2017

Dans le but d'améliorer la fiabilité des technologies utilisant l'électromouillage, l'objectif de cette thèse est d'étudier les mécanismes de vieillissement de matériaux diélectriques et hydrophobes utilisés en électromouillage et d'appliquer ensuite le protocole de caractérisation établi, à de nouveaux matériaux. Cette thèse s'articule en trois parties. Dans une première partie, afin de caractériser finement les propriétés d'hydrophobie de surfaces et de déterminer plus particulièrement leur polarité, nous avons mis au point une méthode de mesure de la polarité de surface basée sur le mouillage de deux liquides sur une surface, ce qui apporte une précision accrue avec un minimum de mesures. Dans une deuxième partie, nous avons étudié différents revêtements utilisés en électromouillage avant et après vieillissement. Nous nous sommes plus particulièrement intéressés aux films hydrophobes largement utilisés dans les systèmes optiques et de micro-laboratoires comme le Fluoropel©, le Cytop© et le parylène C. Cette étude montre une altération non négligeable des performances des matériaux de manière reproductible. L'hystérésis de mouillage, l'angle de contact au repos ainsi que les propriétés de cohésion des couches ont été étudiés afin de mettre en évidence les paramètres critiques à la durée de vie.Dans la dernière partie, nous avons cherché à mettre au point une méthode de dépôt d'un nouveau matériau hydrophobe par deux techniques de synthèse ; la voie sol-gel et la pulvérisation cathodique (PVD). Ainsi, un sol de précurseur à base du métal applicable pour la préparation de couches minces de son oxyde a été élaboré. La solution est obtenue à partir d'un précurseur synthétisé au laboratoire et stabilisée par des chélatants (acétylacétone). La stabilité de la solution ainsi que la procédure de dépôt sont présentées et les revêtements recuits déposés par sol-gel et PVD sont caractérisés par DRX et d'un point de vue morphologique (MEB, microscope optique…). Si, il fut possible de préparer par la méthode sol-gel des films de 300nm couvrants, leur forte rugosité n'a pas permis de les tester en électromouillage. Par la méthode PVD, nous avons pu réaliser des couches de 400 nm d'épaisseur, très lisses et utilisables en électromouillage. Ces films donnent de très bons résultats en électromouillage sur substrats plans et en lentilles liquides / In order to increase the technologies reliability using electrowetting, this work aims to study the mechanisms of ageing on dielectric and hydrophobic materials used in electrowetting as well and to apply this study to new materials. This thesis is composed of three parts.First, to be able to characterize precisely the hydrophobic properties of these surfaces and especially their surface polarity, we established a method to measure the surface polarity based on wettability of two liquids on a surface permitting a better precision with less measurements. In a second part, we studied different films used in electrowetting before and after ageing around 90°C for one week in order to simulate a long term ageing at an ambient temperature. Widely used hydrophobic coating used in optical systems and lab-on-chip will be mainly characterized such as Fluoropel©, Cytop© and parylène C. This work shows the visible alteration of material performances in a reproducible way. Wetting hysteresis and natural contact angle with the cohesive properties of the coatings are studied in order to establish critical parameters for the life time.Finally, we tried to establish a method to deposit a hydrophobic metal oxide coating by two ways, sol-gel technic with dip-coating deposition and by PVD. A precursor sol made of the metal usable to deposit its oxide thin films has been elaborated. The solution is prepared from the synthesized precursor and stabilized by chelatant (acetylacetone). The solution stability as well as the deposition method used are presented and the annealed coatings deposited by sol-gel and PVD are characterized by XRD and morphologically (SEM, optic microscope …). By the sol-gel method, covering coatings of about 300nm have been made. However, because of the roughness, no electrowetting experiments could have been achieved. By PVD, we have deposited coatings of 400nm thickness, very smooth and usable in electrowetting. These coatings give very good results in electrowetting on plane substrates and liquid lenses

Électromouillage

Vieillissement

Énergie de surface

Adhésion

Films hydrophobes

Cérine

Sol gel

Electrowetting

Ageing

Surface energy

Adhesion

Hydrophobic coatings

Ceria

Sol gel

540

Élaboration de matériaux catalytiques pour l'élimination de polluants organiques en phase gaz / Development of catalytic materials for the removal of organics pollutants in gas phase

Sedjame, Henri-Joël

28 October 2013

Les travaux dont les résultats sont présentés dans ce manuscrit ont été menés dans le but de préparer des matériaux catalytiques à base de métaux nobles pour l'élimination de certains composés organiques volatils (COV). Différents catalyseurs à base de platine ont ainsi été préparés et leurs performances catalytiques évaluées pour l'oxydation de deux polluants : le n-butanol et l'acide acétique. Une première étude sur l'élimination oxydative et non-oxydative du n-butanol sur des catalyseurs à base de platine supportés sur alumine a été menée. Ce travail a porté essentiellement sur l'étude de l'effet des différents paramètres intervenant dans la réaction (oxygène, eau, métal). Le phénomène d'adsorption-désorption du polluant à la surface du catalyseur a également été étudié. S'inspirant des données de la littérature sur les propriétés redox particulières de la cérine, les travaux ont ensuite porté sur l'effet de l'ajout de CeO2 à des catalyseurs de type Pt/Al2O3 pour l'oxydation du n-butanol et de l'acide acétique. La modification des propriétés redox et acido-basiques ainsi que celle des performances catalytiques du matériau observées avec l'ajout de CeO2 a permis d'établir une corrélation entre activité catalytique en oxydation, capacité de stockage de l'oxygène et basicité. Cette corrélation a été confirmée dans la dernière étude menée sur des catalyseurs mis en forme de type monolithes enduits avec différents matériaux (Pt/Al2O3, Pt/CeO2, Pt/ZrO2, Pt/Al2O3-CeO2, Pt/Al2O3-ZrO2 et Pt/CeO2-ZrO2). / The results presented in this manuscript have aimed at preparing catalytic materials based on noble metals for the removal of volatile organic compounds (VOC). Thus, different platinum based catalysts have been prepared and their catalytic performances have been evaluated for n-butanol and acetic acid oxidation. A first study on oxidative and non-oxidative removal of n-butanol over alumina supported platinum based catalysts has been performed. This work focused on the study of the effect of the different parameters involved in the reaction (oxygen, water, metal). The adsorption-desorption phenomenon of the pollutant on the catalyst surface has also been studied.Inspired by the literature on the specific redox properties of ceria, the work was then focused on the effect of the addition of CeO2 to Pt/Al2O3 catalysts for n-butanol and acetic acid oxidation. The modification of the redox and acid-base properties as well as that of the catalytic performances of the material with the addition of CeO2 allowed to establish a relationship between catalytic oxidation activities, oxygen storage capacity and basicity. This correlation has been confirmed in the last study performed on the monolithic catalysts coated with different materials (Pt/Al2O3, Pt/CeO2, Pt/ZrO2, Pt/Al2O3-CeO2, Pt/Al2O3-ZrO2 and Pt/CeO2-ZrO2).

Oxydation catalytique

Cov

N-butanol

Acide acétique

Platine

Monolithe

Alumine

Cérine

Catalytic oxidation

Voc

N-butanol

Acetic acid

Platinum

Monolith

Aluminum oxide

Ceria

541.395

Nouveaux revêtements nanocomposites Zn/CeO2 : élaboration, caractérisation, propriétés / New Zn/CeO2 nanocomposite coatings : elaboration, characterisation, properties

Exbrayat, Loïc

10 January 2014

Les travaux présentés dans ce mémoire ont pour but de mieux comprendre l’électrodéposition de revêtements nanocomposites et d’approfondir leur caractérisation. Le système étudié est un revêtement de zinc renforcé par des nanoparticules de cérine. Les dépôts de zinc sont élaborés par électrodéposition en courant continu et pulsé dans un bain ammonium chlorure dans lequel sont introduites des nanoparticules de cérine commerciales de 50 nm de diamètre. A l’issue d’une phase d’optimisation, des conditions de bain particulières caractérisées par un pH basique et l’utilisation d’un surfactant anionique ont ainsi été sélectionnées afin de s’assurer d’une suffisante stabilité de la suspension. L’influence des nanoparticules sur les mécanismes et rendements d’électrodéposition est étudiée. Une caractérisation précise des revêtements élaborés en courant continu a été développée au moyen de diverses techniques (MEB-EDS, DRX, SIMS, SDL, MET). Cette approche multi-disciplinaire a pour but d’évaluer l’incorporation de cérine dans le composite et localiser celle-ci dans l’épaisseur, approche originale et novatrice dans le domaine des revêtements composites à matrice zinc. Les nanoparticules influencent les propriétés des revêtements, avec une augmentation de dureté jusqu’à quarante pourcents. L’impact sur le comportement à la corrosion est mineur mais une amélioration en immersion longue durée est observée. Dans le but d’augmenter plus drastiquement l’incorporation et donc les propriétés, une modification de la morphologie du zinc parait indispensable. Dans cette optique, une démarche d’élaboration en courants pulsés a été conduite avec des résultats limités du fait de la forte influence des particules sur les mécanismes de germination/croissance en pulsés. L’utilisation d’un élément d’alliage tel le nickel est une perspective encourageante pour obtenir des revêtements composites aux propriétés optimisées. / The work presented within this thesis aims to better understand the electrodeposition of nanocomposite coatings and to improve their characterization. The system studied is a zinc coating reinforced by nanoparticles of ceria (50 nm in size). Zinc coatings are produced by DC and PC electroplating from an ammonium chloride bath in which the commercial ceria nanoparticles were introduced. Following an optimization stage, specific bath conditions with a alcaline pH and the use of an anionic surfactant have been selected to ensure sufficient stability of the suspension. The influence of nanoparticles on the mechanisms and plating efficiency is studied. A deep characterization of coatings was performed using various techniques (SEM-EDS, XRD, SIMS, GDOES, TEM). This plural approach aims to assess the dispersion of ceria in the composite surface and bulk, which leads to an original and innovative approach in the field of zinc matrix composite coatings. Nanoparticles influence the properties of coatings, increasing hardness up to forty percent. The impact on the corrosion behavior is minor but a slight improvement in long-term immersion is observed. In order to increase more drastically the incorporation of ceria and therefore properties of the resulting coating, change in the morphology of the zinc seems essential. In this context, an approach developed towards pulsed currents was conducted with limited results because of the strong influence of particles on the mechanisms of germination / growth. The use of an alloying element such as nickel is a promising prospect for composite coatings with optimal properties.

Électrodéposition

Nanocomposite

Zinc

Cérine (CeO2)

Potentiel zêta

Surfactant

Corrosion

Courants pulsés

Ultramicrotomie

Electrodeposition

Nanocomposite

Zinc

Ceria (CeO2)

Zeta potential

Surfactant

Corrosion

Pulsed current

Ultramicrotomy

Surface composition of cobalt catalysts for steam reforming of ethanol / Étude de la composition de la surface des catalyseurs à base de cobalt pour le reformage des vapeurs d'éthanol

Turczyniak, Sylwia

28 September 2016

L’objectif de cette thèse de doctorat a consisté à déterminer l’influence des conditions réactionnelles du vaporeformage de l’éthanol (ESR), de la dispersion du catalyseur et de la promotion par le potassium sur l’état de la surface. Ce travail a aussi aidé à comprendre l’influence de ces facteurs sur les propriétés catalytiques. Nous avons utilisé les catalyseurs à base de cobalt (promus et non promus par le potassium) supportés à l’oxyde de cérium et à l’oxyde de zirconium à faible et à forte dispersion. Les changements de l’état de la surface des catalyseurs pendant la réaction d’ERS ont été étudiés à travers la spectrométrie photoélectronique X (XPS), alors que les changements des produits ont été analisés en utilisant la spectrométrie de masse et la chromatographie en phase gazeuse. Le catalyseur supporté sur oxyde de cérium à forte dispersion a été caractérisé sous une basse pression (0.2-20 mbar) avec le rapport molaire eau/éthanol de 3/1 (420ºC). Les autres tests ont été faits sur tous les catalyseurs sous une pression totale de 1 atm avec les rapports molaires de 3/1, 9/1, 12/1 (420ºC). Nous avons utilisé un mélange eau/éthanol dans un rapport molaire de 12/1 pour étudier les changements de l’état de la surface de tous les catalyseurs dans le temps. Il a été démontré que la sélectivité d’ESR des catalyseurs pour produire des gaz et pour déposer le carbone est réglée par la concentration des groupes hydroxyles sur la surface. Quant aux catalyseurs promus, elle dépend aussi de la concentration Kδ+–Osurfδ-. / The aim of the thesis was determination the influence of the ethanol steam reforming (ESR) reaction conditions, catalyst’s dispersion and potassium promotion on a surface’s composition and understanding the influence of these changes on catalysts’ performance. Cobalt-based catalysts (unpromoted and promoted with potassium) with low- and high-dispersed ceria and zirconia supports were used. The changes of the surface state of catalysts during the ESR were studied by means of X-ray photoelectron spectroscopy, whereas the reaction products evolution was followed by mass spectrometer or gas chromatograph. Highly-dispersed ceria-supported catalyst was characterized under low pressure conditions (0.2–20 mbar) with the water/ethanol molar ratio equal to 3/1 (at 420ºC). The other tests were carried out over all catalysts under total pressure of 1 atm with 3/1, 9/1 and 12/1 molar ratios (at 420ºC). The water/ethanol ratio of 12/1 was chosen for studies of the surface state of all catalysts with time-on-stream. It was found that the ESR selectivity to gaseous products and carbon deposition is governed mainly by surface hydroxyl species concentration; in the promoted catalysts together with Kδ+–Osurfδ- surface sites.

Catalyseurs à base de cobalt

Oxyde de cérium

Oxyde de zirconium

Promoteur de potassium

Vaporeformage de l’éthanol

XPS

Cobalt catalysts

Ceria

Zirconia

Potassium promoter

Ethanol steam reforming

XPS

541.3

Roles of morphology and foreign metals of ceria-based catalysts in improving oxidations of Diesel vehicle pollutants / rôles de la morphologie et du dopage des catalyseurs à base de cérine dans l'oxydation des polluants émis par les véhicules diesel

Andana, Tahrizi

04 April 2017

Le travail au présent surligne la cérine nanostructurée et bien-définie ; une morphologie qui promeut une haute activité catalytique de la cérine dans l’oxydation des suies. Le travail présente également l’introduction des métaux pour le dopage, tels que praséodyme et zirconium, à la surface de la cérine pour améliorer la réductibilité, la stabilité thermique, et la capacité du stockage d’oxygène. L’oxydation à température programmée a été utilisée pour analyser l’activité catalytique. Au premier étage de la recherche, on a découvert que l’oxyde en mélange équimolaire de la cérine et de l’oxyde de praséodyme en nanostructure (indiqué comme Ce50Pr50-NP) possède la quantité d’espèces oxygénées à la surface la plus haute, la réductibilité la plus haute et l’activité catalytique la plus haute dans l’oxydation normale des suies. Il a été conclu que la nanostructure soulève la fonctionnalité du praséodyme dans la cérine. Le travail introduit également des nanoparticules (NPs) de Pt stabilisée par n-octylsilane. Pendant la calcination, les ligands silyliques se transforment aux « patches » de la silice qui leur évitent le frittage. Des NPs de Cu ont été préparées avec la même façon ; néanmoins elles ont souffert de sintering. Les NPs de Pt sont très actives dans l’oxydation de tous les polluants modèles des véhicules Diesel, spécifiquement l’oxydation des suies en présence de NOx, et elles fonctionnent mieux avec la cérine nanostructurée. Comme attendu, Ce50Pr50-NP donne l’activité catalytique plus haute que les catalyseurs à base du platine. La haute conversion du NO et l’adsorption du NO2 sur la surface sont la raison majeure de l’activité marquante / The present work highlights well-defined nanostructured ceria; a morphology that bestows exceptional catalytic activity on ceria towards soot oxidation. The work includes also introduction of promoting foreign metals, such as praseodymium and zirconium, to well-defined nanostructured ceria as a means of improving reducibility, thermal stability and oxygen storage capacity of the catalyst. Temperature-programmed oxidation (TPO) has been used for analyzing catalytic activity. At the first stage of the research, nanostructured equimolar ceria-praseodymia (denoted as Ce50Pr50-NP) was found to have the highest amount of surface oxygen, the highest reducibility and the highest catalytic activity towards soot oxidation. The nanostructured morphology has been proven to raise the functionality of praseodymia as the foreign metal in ceria. The work also introduces small, silane-stabilized Pt nanoparticles. Upon calcination, silyl ligands are transformed into siliceous patches that prevent the particle from migrating/coalescing. Cu nanoparticles have been prepared the same way as Pt nanoparticles; however, they sinter even under milder thermal treatment. The small Pt-NPs are proven active towards all pollutant oxidations, including NOx-assisted soot oxidation, and they function better with nanostructured ceria as the support. Unexpectedly, Ce50Pr50-NP gives higher activity towards NOx-assisted soot oxidation than Pt catalysts. Intense NO conversion and NO2 adsorption on the surface of Ce50Pr50-NP are the reason behind its high activity

Morphologie

Métaux pour le dopage

Cérine

Oxydation

Suies

NOx

Véhicule diesel

Morphology

Foreign metals

Ceria

Oxidation

Soot

NOx

Diesel vehicles

541.395

Synthèse du carbonate de diméthyle par carboxylation du méthanol catalysée par des oxydes mixtes de cérium et de zirconium : relation structure–activité, étude mécanistique et cinétique / Direct carboxylation of methanol into dimethyl carbonate over ceria/zirconia catalysts : structure-activity relationship, mechanistic and kinetic study

Daniel, Cécile

27 January 2017

Le carbonate de diméthyle (DMC) est utilisé comme intermédiaire en chimie des polymères. Actuellement, la production industrielle du DMC met en jeu un procédé polluant et dangereux. En revanche, la synthèse du DMC à partir de méthanol et de CO2 est un procédé « vert ». Cependant, la thermodynamique de la réaction est très défavorable, se traduisant par une conversion inférieure à 1%. L'objectif de cette thèse est de développer et d'étudier des catalyseurs très actifs qui, couplés à un réacteur membranaire, permettraient d'augmenter le rendement et l'activité. Ce manuscrit couvre plusieurs aspects : i) une étude de criblage de catalyseurs, ii) une étude de type structure-activité sur des séries de catalyseurs, basée sur des caractérisations structurales, texturales et de surface, iii) une étude mécanistique et iv) une étude cinétique. Un protocole de mesure d'activité adapté aux faibles conversions est développé. Le criblage catalytique met en évidence l'activité des solutions solides de cérine-zircone (CZ). Les CZ préparées par pyrolyse de flamme sont un ordre de grandeur plus actives que les CZ préparées par coprécipitation. De façon surprenante, il n'est pas possible a priori de distinguer des catalyseurs très actifs et peu actifs à partir de leurs caractéristiques structurales et texturales. Cependant, on observe que l'activité est corrélée à la densité et à la nature des espèces de surfaces méthoxides et carbonates. Le mécanisme réactionnel de l'état de l'art est affiné grâce à des mesures d'échanges isotopiques et de DRIFT. L'étude cinétique intègre des corrections thermodynamiques de l'équilibre de phases du binaire MeOH-CO2 qui constitue un liquide expansé / Dimethylcarbonate (DMC) is used in polymer synthesis as well as a fuel additive and solvent. The current industrial DMC production is a polluting and hazardous process. On the other hand, the direct carboxylation of methanol with CO2 is a green route to DMC. However, this reaction is highly limited by thermodynamics, limiting the conversion to less than 1%. The integration of a catalyst in a catalytic membrane reactor for water and DMC removal, would shift the equilibrium conversion thereby improving the DMC yield. The aim of this thesis is to develop and study highly active catalysts for DMC synthesis. This manuscript covers: (i) catalyst screening (ii) a structure-activity relationship study (iii) a mechanistic approach and (iv) a kinetic study. A protocol to measure the activity at low conversion has been developed. Catalyst screening evidenced solid solutions of ceria/zirconia (CZ) as the most active and selective. Flame sprayed pyrolysis ceria/zirconia are one order of magnitude more active than coprecipitated CZ. Interestingly, structural and textural features like crystalline and porous structure were similar regardless of the activity. Nevertheless, the activity could be correlated to the nature and the density of the methoxides and carbonates surface species. The mechanism was refined by isotopic exchange and DRIFT experiments. A kinetic study was performed in a batch reactor that integrated the physical equilibria of the gas-expanded reacting mixture

Cérine zircone

Diméthyle carbonate

Cinétique

Relation structure-activité

Pyrolyse de flamme

Méthanol

CO2

Caractérisation

Ceria zirconia

Dimethylcarbonate

Kinetics

Structure-activity relationship

Flame spray pyrolysis

Methanol

CO2

Characterization

541.395