Applied and Fundamental Heterogeneous Catalysis Studies on Hydrodechlorination of Trichloroethylene and Steam Reforming of Ethanol

Sohn, Hyuntae

January 2016

No description available.

Chemical Engineering

hydrodechlorination

trichloroethylene

groundwater remediation

modified silica

SOMS

palladium

alumina

poison resistant

hydrophobicity

ethanol steam reforming

hydrogen production

cobalt

ceria

particle size

microgravity

synthesis of ceria

Design of solid catalysts for biomass upgrading

Schimming, Sarah McNew

07 January 2016

The two main requirements for ceria-zirconia hydrodeoxygenation (HDO) catalysts are the presence of defect sites to bind oxygenates and the ability to adsorb and dissociate hydrogen. Two types of sites were identified for exchange of hydrogen and deuterium. The activation energy for one type of site was associated with H2-D2 exchange through oxygen defect sites. The activation energy for the second type of site was associated with H2-D2 exchange through hydroxyl groups and correlated with crystallite size. Ceria-zirconia can convert guaiacol, a model pyrolysis oil compound, with a high selectivity to phenol, an HDO product. Ceria-zirconia catalysts had a higher conversion of guaiacol to deoxygenated products as well as a higher selectivity towards phenol than pure ceria. They did not deactivate over the course of 72 hours on stream, whereas coking or the presence of water in the feed can cause serious decay of common HDO catalysts HDO. Therefore, ceria-zirconia catalysts are promising HDO catalysts for the first step of deoxygenation. The stability of supported Ru on ZrO2 in acidic or basic environments at reaction temperature is examined. In this study, the ruthenium dispersion is greatly increased by hydrothermal treatment in acidic and basic pH without alterations to the surface area, pore volume, pore size or crystal structure. An increase in Ru dispersion showed an increase in the selectivity to propylene glycol relative to ethylene glycol. A decrease in total Lewis acid site concentration was correlated with a decrease in the ethylene glycol yield. The conclusions of this study indicate that stability of catalysts in realistic industrial environments is crucial to the design of catalysts for a reaction.

Catalyst

Biomass

Ceria-zirconia

Hydrodeoxygenation

Ruthenium

Guaiacol

Deuterium

Hydrogen

Glycerol hydrogenolysis

INVESTIGATIONS OF OXIDATIVE STRESS EFFECTS AND THEIR MECHANISMS IN RAT BRAIN AFTER SYSTEMIC ADMINISTRATION OF CERIA ENGINEERED NANOMATERIALS

Hardas, Sarita S.

01 January 2012

Advancing applications of engineered nanomaterials (ENM) in various fields create the opportunity for intended (e.g. drug and gene delivery) or unintended (e.g. occupational and environmental) exposure to ENM. However, the knowledge of ENM-toxicity is lagging behind their application development. Understanding the ENM hazard can help us to avoid potential human health problems associated with ENM applications as well as to increase their public acceptance. Ceria (cerium [Ce] oxide) ENM have many current and potential commercial applications. Beyond the traditional use of ceria as an abrasive, the scope of ceria ENM applications now extends into fuel cell manufacturing, diesel fuel additives and for therapeutic intervention as a putative antioxidant. However, the biological effects of ceria ENM exposure have yet to be fully defined. Both pro-and anti-oxidative effects of ceria ENM exposure are repeatedly reported in literature. EPA, NIEHS and OECD organizations have nominated ceria for its toxicological evaluation. All these together gave us the impetus to examine the oxidative stress effects of ceria ENM after systemic administration. Induction of oxidative stress is one of the primary mechanisms of ENM toxicity. Oxidative stress plays an important role in maintaining the redox homeostasis in the biological system. Increased oxidative stress, due to depletion of antioxidant enzymes or molecules and / or due to increased production of reactive oxygen (ROS) or nitrogen (RNS) species may lead to protein oxidation, lipid peroxidation and/or DNA damage. Increased protein oxidation or lipid peroxidation together with antioxidant protein levels and activity can serve as markers of oxidative stress. To investigate the oxidative stress effects and the mechanisms of ceria-ENM toxicity, fully characterized ceria ENM of different sizes (~ 5nm, 15nm, 30nm, 55nm and nanorods) were systematically injected into rats intravenously in separate experiments. Three brain regions (hippocampus, cortex and cerebellum) were harvested from control and ceria treated rats after various exposure periods for oxidative stress assessment. The levels of oxidative stress markers viz. protein carbonyl (PC), 3-nitrotyrosine (3NT), and protein bound 4-hydroxy-2-trans-nonenal (HNE) were evaluated for each treatment in each control and treated rat organ. Further, the levels and activities of antioxidant proteins, such as catalase, glutathione peroxidase (GPx), glutathione reductase (GR), super oxide dismutase (SOD), were measured together with levels of heat shock proteins heme oxygenase -1 and 70 (HO-1 and Hsp-70). In addition, the levels of pro-inflammatory cytokines IL-1β, TNF-α, pro-caspase-3, and autophagy marker LC-3A/B were measured by Western blot technique. In agreement with the literature-proposed model of oxidative stress hierarchy mechanism of ENM-toxicity, the statistical analysis of all the results revealed that the ceria ENM-induced oxidative stress mediated biological response strongly depends on the exposure period and to some extent on the size of ceria ENM. More specifically, a single intravenous injection of ceria ENM induced tier-1 (phase-II antioxidant) response after shorter exposure periods (1 h and 20 h) in rat brain. Upon failure of tier-1 response after longer exposure periods (1 d to 30 d), escalated oxidative stress consequently induced tier-2 and tier-3 oxidative stress responses. Based on our observations made at chronic exposure period (90 d) after the single i.v. injection of ceria ENM, we could extend the model of oxidative stress hierarchy mechanisms for ceria-ENM-induced toxicity. Considering the evaluation of all the oxidative stress indices measured in 3-brain regions, oxidative stress effects were more prominent in hippocampus and the least in cerebellum, but no specific pattern or any significant difference was deduced.

Ceria

cerium oxide

nanomaterial

nanoparticles

nanotoxicity

oxidative stress

phase-II enzymes

Chemistry

Nanoscience and Nanotechnology

Toxicology

The Effects of Ceria Addition on Aging and Sulfation of Lean NOx Traps for Stand Alone and LNT-SCR Applications

Easterling, Vencon G.

01 January 2013

THE EFFECTS OF CERIA ADDITION ON AGING AND SULFATION OF LEAN NOx TRAPS FOR STAND ALONE AND LNT-SCR APPLICATIONS Model powder and fully formulated monolithic lean NOx trap (LNT) catalysts were used to investigate the effect of ceria on desulfation behavior. Temperature-programmed reduction (TPR) experiments (model catalysts) showed each of the oxide phases present is able to store sulfur and possesses distinct behavior (temperature at which desulfation occurs). La-CeO2 or CeO2-ZrO2-containing samples (monoliths) showed a greater resistance to deactivation during sulfation and required lower temperatures to restore the NOx storage efficiency to its pre-sulfation value. Fully formulated monolithic LNT catalysts containing varying amounts of Pt, Rh and BaO were subjected to accelerated aging to elucidate the effect of washcoat composition on LNT aging. Elemental analysis revealed that residual sulfur, associated with the Ba phase, decreased catalyst NOx storage capacity and that sintering of the precious metals resulted in decreased contact between the Pt and Ba phases. Spatially-resolved inlet capillary mass spectrometry (SpaciMS) was employed to understand the factors influencing the selectivity of NOx reduction in LNT catalysts degreened and thermally aged) containing Pt, Rh, BaO and Al2O3, and contained La-stabilized CeO2. Stretching of the NOx storage and reduction zone (NSR) zone resulted in increased selectivity to NH3 due to the fact that less catalyst was available to consume NH3 by either the NH3-NOx SCR reaction or the NH3-O2 reaction. Additionally, the loss of oxygen storage capacity (OSC) and NOx storage sites, along with the decreased rate of NOx diffusion to Pt/Rh sites, led to an increase in the rate of propagation of the reductant front after aging, in turn, resulting in increased H2:NOx ratios at the Pt/Rh sites and consequently increased selectivity to NH3. Finally, a crystallite scale model was used to predict selectivity to NH3 from the LNT catalysts during rich conditions after a fixed amount of NOx was stored during lean conditions. Both the experimental and model predicted data showed that the production of NH3 is limited by the rate of diffusion from the Ba storage sites to the Pt particles at 200 °C. At 300 °C, the process is limited by the rate at which H2 is fed to the reactor.

Lean NOx Trap

Desulfation

Ceria

SpaciMS

Ammonia

Catalysis and Reaction Engineering

Chemical Engineering

Engineering

Electroanalysis in nanoparticle assemblies

Stott, Susan J.

January 2007

This thesis is concerned with the deposition of nanoparticle films onto boron-doped diamond and tin-doped indium oxide (lTO) surfaces and the characterisation of the films using electron microscopy, powder diffraction methods and quartz crystal microbalance (QCM) data. The redox behaviour of the porous films was examined using cyclic voltammetry in various media to investigate potential electroanalytical applications. TiOz (anatase) mono-layer films were immobilised onto an inert boron-doped diamond substrate. Cyclic voltammetry experiments allowed two distinct steps in the reduction - protonation processes to be identified that are consistent with the formation of Ti(III) surface sites accompanied by the adsorption of protons. Preliminary data for electron transfer processes at the reduced TiOz surface such as the dihydrogen evolution process and the 2 electron - 2 proton reduction of maleic acid to succinic acid are discussed. Novel multi-layer TiOz films were deposited with a variety of organic binder molecules onto ITO substrates. The redox reactivity of Cuz+ with 1,4,7,10- tetraazacyclododecane- 1,4,7, IO-tetrayl- tetrakis (methyl-phosphonic acid) in solution and immobilised on an electrode surface are investigated. The influences of film thickness, scan rate, and pH on the electrochemistry of immobilised pyrroloquinoline quinone was investigated with two possible electron transport processes observed. The thickness of TiOz phytate films was found to change the shape of the resulting cyclic voltammograms dramatically. Computer simulation and impedance spectroscopy allowed insights into the diffusion of electrons to be obtained. 1, 1 ~Ferrocenedimethanol was employed as an adsorbing redox system to study the voltammetric characteristics of carboxymethyl-y-cyclodextrin films and evidence for two distinct binding sites is considered. The apparent transport coefficients for dopamine and Ru(NHJ)6J+ are estimated for TiOz Nafion® films. The electrochemical processes in biphasic electrode systems for the oxidation of water-insoluble N,N-didodecyl-N;N~diethyl-benzene-diamine (DDPD) pure and dissolved in di-(2-ethyl-hexyl)phosphate (HDOP) immersed in aqueous electrolyte media are described. Transfer of the anion from the aqueous electrolyte phase into the organic phase accompanies the oxidation of pure DDPD. In the presence of HOOP, oxidation is accompanied by proton exchange. The electrochemically driven proton exchange process occurs over a wide pH range. Organic microdroplet deposits of OOPD in HDOP at basal plane pyrolytic graphite electrodes are studied using voltammetric techniques and compared to the behaviour of organic microphase deposits in mesoporous Ti02 thin films. Two types of Ti02 thin film electrodes were investigated, (i) a 300-400 nm film on ITa and (ii) a 300-400 nm film on ITa sputter-coated with a 20 nm porous gold layer. The latter biphasic design is superior. Titanium carbide (TiC) nanoparticies were deposited onto ITa electrodes. Partial anodic oxidation and formation of novel core-shell TiC-Ti02 nanoparticies was observed at applied potentials positive of 0.3 V vs. SCE. Significant thermal oxidation of TiC nanoparticies by heating in air occurs at 250 °c leading to coreshell TiC-Ti02 nanoparticies, then Ti02 (anatase) at ca. 350 °c, and Ti02 (rutile) at temperatures higher than 750 °c. The electrocatalytic properties of the core-shell TiC-Ti02 nanoparticulate films were surveyed for the oxidation of hydroquinone, ascorbic acid, dopamine and nitric oxide (NO) in aqueous buffer media. Mono- and multi-layer Ce02 deposits on ITa are shown to be electrochemically active. A reduction assigned to a Ce(IV/III) process has been observed and followup chemistry in the presence of phosphate discovered. The interfacial formation of CeP04 has been proven and effects of the deposit type, pH and phosphate concentration on the process analysed. The electrochemistry of multi-layer Ce02 nanoparticulate films in organic solvent is shown to be more stable.

541.37

Investigação do óxido semicondutor CeO2 dopado com Fe e La pela espectroscopia de correlação angular gama-gama perturbada / Investigation of semiconductor oxide CeO2 doped with Fe and La by means of Perturbed Angular Gamma-Gamma Correlation Technique

Salutte, Caio de Oliveira

18 December 2013

Amostras de dióxido de cério dopadas com La e Fe foram confeccionadas e caracterizadas por uma técnica nuclear baseada em interações hiperfinas conhecida como Correlação Angular Gama-Gama Perturbada (CAP). Como o composto em questão não é radioativo, foram utilizados núcleos radioativos como ponta de prova 111In 111Cd, que decaem através de uma cascata gama-gama 171-245 keV, com nível intermediário possui uma meia-vida de 84ns, spin 5/2- e um momento de quadrupolo elétrico Q= 0,83. Inicialmente uma metodologia para a produção das amostras precisou ser elaborada. As amostras de dióxido de cério e seus dopantes foram produzidas através do processo Sol-Gel, passando por uma calcinação e sinterização até a finalização da amostra. Sendo caracterizada por diversos tipos de técnicas (Difração de Raios-X e Microscopia Eletrônica de Varredura) culminando no estudo através da técnica CAP, para uma compreensão das interações quadrupolares elétricas das amostras e também a possibilidade da existência de comportamento magnético (assunto intensamente investigado dado o interesse na área da spintrônica). Os resultados encontrados foram analisados frente aos conhecimentos encontrados na literatura e as discussões foram feitas em função da variação do elemento dopante, tipos de tratamentos térmicos usados na sinterização e as diferentes temperaturas de medidas. Permitindo uma discussão e interpretação física dos resultados encontrados. / Samples of cerium dioxide doped with La and Fe were fabricated and characterized by a technique based on nuclear hyperfine interactions known as Perturbed Angular Gamma-Gamma Correlation (PAC). As the used compound is not radioactive and the PAC technique requires a radioactive decaying through a cascade gamma-gamma, a radioactive probe nuclei were used (111In 111Cd - 171-245 keV), with intermediate has a half-life of 84ns, spin 5/2- and a moment of electric quadrupole Q= 0,83. Initially a methodology for the production of the samples had to be prepared. The cerium dioxide and its dopants were produced by the Sol-Gel process, undergoing a calcining and sintering. The sample are characterized by various types of techniques (X-ray Diffraction and Scanning Electron Microscopy) succeeding study through hyperfine Interactions, with the PAC technique, to an understanding of the electric quadrupole inteirações samples and also the possibility of the existence of magnetic behavior (subject intensively investigated given the interest in the field of spintronics). The results were analyzed taking the knowledge found in the literature and discussions were made on the basis of the variation of the doping element, thermal treatments used in the sintering temperatures and the different measures. Allowing a discussion and physical interpretation of results.

ceria

cério

hyperfine interactions

interações hiperfinas

oxide

óxido

PAC

PAC

sol-gel

sol-gel

Influência do cálcio e do lítio na sinterização e na condutividade elétrica do óxido de cério contendo gadolínio / Influence of calcium and lithium on the densification and electrical conductivity of gadolini-doped ceria

Porfirio, Tatiane Cristina

28 February 2011

A introdução de cálcio e lítio como aditivos de sinterização na céria: 10% mol gadolínia foi investigada com o intuito de verificar sua influência na densificação e condutividade elétrica das cerâmicas sinterizadas. Pós contendo de 0 a 1,5% mol do metal foram preparados tanto por reação em estado sólido quanto pela co-precipitação dos oxalatos. As principais técnicas de caracterização utilizadas foram análise térmica, difração de raios X, microscopia eletrônica de varredura e medida da condutividade elétrica por espectroscopia de impedância. Os resultados obtidos mostraram que cerâmicas densas podem ser obtidas utilizando ambos os aditivos. O aumento no teor do aditivo resulta em aumento na densificação. A forma de adição, por reação em estado sólido ou por coprecipitação exerce influência na condutividade elétrica. A adição de cálcio promove maior crescimento dos grãos que o lítio. A condutividade elétrica das amostras contendo o segundo aditivo é inferior à da céria-gadolínia pura. Ambos os aditivos exercem influência na condutividade intergranular. Adição de cálcio resulta também em diminuição da condutividade intragranular. Os aditivos favorecem a exudação do gadolínio. / In this work, the use of calcium and lithium as sintering aid to gadolinia-doped ceria was systematically investigated. The main purpose was to verify the influence of these additives on the densification and electrical conductivity of sintered ceramics. Powder compositions containing up to 1.5 mol% (metal basis) of calcium or lithium were prepared by both solid state reaction and oxalate coprecipitation methods. The main characterization techniques were thermal analyses, X-ray diffraction, scanning electron microscopy and electrical conductivity by impedance spectroscopy. Both additives promoted densification of gadolinia-doped ceria. The densification increases with increasing the additive content. Different effects on microstructure and electrical conductivity result from the method of preparation, e.g., solid state reaction or coprecipitation. Calcium addition greatly enhances the grain growth compared to lithium addition. The electrical conductivity of specimens containing a second additive is lower than that of pure gadolinia-doped ceria. Both additives influence the intergranular conductivity and favor the exudation of gadolinium out of the solid solution.

additives

aditivos

ceria

céria

co-precipitação

condutividade elétrica

coprecipitation

electrical conductivity

sintering

sinterização

solid state reaction

Crescimento de grãos e condutividade elétrica da céria-samária usando o método de sinterização em duas etapas / Grain growth and electrical conductivity of samaria-doped ceria sintered by the two-step sintering method

Reis, Shirley Leite dos

15 July 2010

A solução sólida céria-samária é uma das principais candidatas para aplicação como eletrólito sólido em células a combustível de óxido sólido, devido sua alta condutividade iônica em temperaturas intermediárias (500-750 ºC) de operação. Um dos problemas ainda não solucionados com relação a este material é sua relativamente baixa sinterabilidade. Nesse trabalho foi utilizado o método de sinterização em duas etapas visando melhorar a densificação com reduzido tamanho médio de grãos. Soluções sólidas comercial e obtida por mistura de óxidos de composição Ce0,8Sm0,2O1,9 foram utilizadas. Para fins comparativos também foi utilizado o método denominado sinterização em duas etapas tradicional que visa a obtenção de amostras densas independentemente do tamanho médio de grãos. Resultados de densidade aparente e retração linear revelaram que ambos os tipos de amostras têm comportamento distinto. Para a solução sólida comercial, a retração total até 1400 ºC foi de ~18%. Só foram obtidos resultados de densidade significativos ao utilizar temperaturas elevadas (igual ou superior a 1300 ºC). Para o material obtido por mistura de óxidos não foi possível atingir densidades maiores que 90% da densidade teórica. A sinterização em duas etapas tradicional produziu amostras densas, da mesma forma, que a não-tradicional, mas com tamanhos de grãos consideravelmente maiores. Amostras sinterizadas por ambos os processos foram analisadas por espectroscopia de impedância para a determinação da condutividade elétrica em função da temperatura, e não apresentaram variação significativa nas condutividades intra e intergranular. A sinterização em duas etapas não resultou em melhorias na densificação e nem na condutividade elétrica das amostras. Entretanto, a redução obtida no tamanho médio de grãos pode melhorar as propriedades mecânicas. / Samaria-doped ceria solid solution has been proposed to be used as solid electrolyte in Solid Oxide Fuel Cells due to its high ionic conductivity at intermediate temperatures (500-750 ºC). One of the main problems related to this solid solution is the relatively low sinterability. In this work, sintering of powder compacts was carried out by the two-step sintering method to improve the densification with simultaneous reduction of the mean grain size. Samaria-doped ceria, both commercial and prepared by solid state reactions, with composition Ce0.8Sm0.2O1.9 were investigated. For comparison purposes, the traditional two-step sintering method, by which dense specimens are produced, was also utilized. Apparent density and linear shrinkage results showed distinct features depending on the type of specimen. Total linear shrinkage for commercial solid solution up to ~ 1400 ºC was 18%, but high density values were obtained only for sintering experiments conducted at high temperatures ( 1300 ºC). Specimens prepared by solid state reactions did not attain density values higher than 90% of the theoretical one. The traditional method produced dense specimens as well as the two-step sintering, although the grain size was considerably higher in the former. Specimens sintered by the two methods were used for electrical conductivity measurements. No significant variation in both the grain and the grain boundary conductivities was obtained. The two-step sintering did not allow any improvement in the densification and in the electrical conductivity of samaria-doped ceria. However, the decrease in the mean grain size may contribute to improve the mechanical properties of this solid solution.

céria-samária

condutividade elétrica

electrical conductivity

grain size

samaria-doped ceria

sintering

sinterização

tamanho de grão

Síntese e caracterização de nanocatalisadores de ZrO2-CeO2/Ni para aplicação em ânodos de células a combustível de óxido sólido / Syntesis and Characterization of ZrO2-CeO2/Ni nanocatalysts for application in solid oxide fuel cell anodes

Bacani, Rebeca

18 August 2014

Compósitos mesoporosos de ZrO2-CeO2 estão sendo desenvolvidos devido às suas excelentes propriedades morfológicas e estruturais, necessárias para várias aplicações, que incluem sensores de gás, catálise automotiva e ânodos de células a combustível de óxido sólido. Nesse trabalho foi desenvolvido um novo método de síntese sol-gel com template cooperativo utilizando o polímero tribloco P-123 e os cloretos de Zr/Ce como precursores dos óxidos. Foram sintetizados ZrO2-x(mol)%CeO2 com x = 50, 70 e 90% de CeO2, uma vez que esses materiais apresentam melhores características para aplicações catalíticas. Dois processos de calcinação diferentes foram testados (até 540 e 400ºC). O NiO (60% m/m) foi impregnado para que o material obtenha a condutividade eletrônica necessária para aplicação em ânodos de SOFC. Os resultados de difração de raios X indicaram sistemas cuja fase cristalográfica predominante é a cúbica tipo fluorita (a fase tetragonal é minoritária). Fase única cúbica foi obtida para 90% de CeO2 após a calcinação até 400ºC. Dentre as características morfológicas dos materiais calcinados até 540ºC, os resultados de adsorção/dessorção de N2, imagens de microscopia eletrônica e espalhamento de raios X a baixos ângulos apresentaram aglomerados cristalinos de ZrO2-CeO2, formando um sistema mesoporoso bicontínuo, aleatéorio e sem forma definida, homogêneo em composição, com área superficial intermediária (30-40 m2/g), com alta dispersividade de poros/partículas. A calcinação a 400ºC apresentou menor dispersividade, menor tamanho de poros e maior área superficial (> 100 m2/g). O recobrimento da matriz de ZrO2-CeO2 pelas nanopartículas de NiO é superficial, sem obstrução ou preenchimento dos poros. A partir da redução à temperatura programada, observou-se que independentemente do conteúdo de CeO2, a porcentagem de redução do Ce4+ foi maior e ocorreu a menores temperaturas (início da redução em 300ºC) do que o padrão de CeO2 (750ºC). Esse comportamento se repete com as amostras após a incorporação com NiO, que se reduz a Ni também em baixas temperaturas (320ºC). A atividade catalítica para conversão do CH4 em oxidação total foi similar para ambas temperaturas de calcinação, para 90% de CeO2, atingindo 50% de conversão de CH4 para ~ 540ºC. Nos experimentos de absorção de raios X in-situ, na borda K do Ni e na borda LIII do Ce, foi possível observar que todos os conteúdos de CeO2 são ativos para oxidação parcial e total de CH4, assim como decomposição do CH4 e oxidação do CO, que ocorreu em torno de 600ºC. Os resultados de espectroscopia de impedância eletroquímica mostraram que, materiais com alto conteúdo de CeO2, apresentam baixa resistividade, de 0,97 cm2 a 750ºC em atmosfera de 5% CH4/3\\%H2O/N2. Portanto, o material desenvolvido neste trabalho apresenta as melhores propriedades morfológicas, estruturais, elétricas e catalíticas relatadas na literatura para aplicações como ânodo de SOFC e catalisador, comparado a materiais similares relatados na literatura. / Mesoporous ZrO2-CeO2 composites are being developed due to their excellent morphological and structural properties, which are necessary for their use in several applications, including gas sensors, three way catalysts (TWC) and solid oxide fuel cells (SOFCs). In this work a new synthesis method was developed based on a template cooperative sol-gel approach, using the tri-block polymer P-123 and Zr/Ce chlorides as the oxides\' precursors. Since high cerium oxide quantities lead to better catalytic performance, the ZrO2-x(mol)%CeO2 were synthesized with x = 50, 70 and 90. Two different calcination processes were tested (until 540 and 400 ºC). NiO was impregnated in order to obtain enough electronic conductivity for their application as SOFC anodes. X-ray diffraction results showed that these systems are biphasic and crystallized preferentially into cubic fluorite type structure together with smaller quantities of the tetragonal zirconia-ceria phase. A 100% cubic phase was retained for 90% of CeO2 after 400 ºC calcination. Textural and morphological characteristics for 540ºC calcination evaluated from N2 sorption, electronic microscopy images and small angle X-ray scattering revealed a two-density (pores/particles) random crystalline clusters of mesoporous ZrO2-CeO2, with homogeneous composition, average superficial area (30-40 m2/g), high dispersivity of pores/particle sizes. Calcination until 400 ºC presented a narrower pore size distribution and smaller pores, with higher superficial area (> 100 m2/g). It was observed that NiO particles formed an uniform layer over the ZrO2-CeO2 without filling or blocking the zirconia-ceria pores. Temperature programmed reduction experiments showed that for all ceria contents the reduction percentage of Ce4+ species in the samples was higher and at lower temperatures (beginning of reduction at 300 ºC) than standard CeO2 (750 ºC). After NiO impregnation this behavior was similar, with NiO reducing at lower temperatures (320 ºC) as well. Catalytic activity for methane total oxidation reaction was similar for both calcination temperatures, for 90% CeO2, showing 50% of CH4 conversion around 540 ºC. Absorption X-ray in-situ experiments at Ni K-edge and Ce LIII-edge showed that all ceria contents are active for total and partial methane oxidation, CH4 decomposition and CO oxidation at 600 ºC. Electrochemical impedance spectroscopy measurements showed low resistivity for higher ceria content, 0,97 Ocm2 at 750 ºC in 5% CH4/3% H2O/N2 atmosphere. Resuming, the material developed in this work presents the best morphological, structural, electrical and catalytical properties for applications as SOFC anode and catalyst, compared to similar materials reported in the literature.

Células a combustível.

ceramic materials

ceria

Céria

fuel cells.

Materiais Cerâmicos

Materiais Porosos

porous materials

zirconia

Zircônia

Sinterização, microestrutura e condutividade elétrica da céria-gadolínia com adições de SrO, TiO2 e SrTiO3 / Sintering, microstructure and electrical conductivity of gadolinia-doped ceria with SrO, TiO2 and SrTiO3

Dias, Maria Cely Freitas

02 May 2013

Eletrólitos sólidos de céria com adição de íons de terras raras trivalentes apresentam elevada condutividade iônica quando comparados com a zircônia estabilizada com ítria, que é um eletrólito sólido padrão. Por isso, esses condutores de íons oxigênio à base de céria têm potencial de aplicação em células a combustível de óxido sólido que operam em temperaturas intermediárias (500-700ºC). Uma das abordagens mais investigadas para otimização da condutividade elétrica e de outras propriedades destes materiais é a incorporação de um segundo aditivo. Neste trabalho, composições de céria-20% mol gadolínia com SrO, TiO2 e SrTiO3 como co-aditivos, em teores de 1; 2,5 e 5% em mol foram preparadas por reação em estado sólido. O principal objetivo foi verificar o efeito dos aditivos na densificação, na microestrutura e na condutividade elétrica da céria-gadolínia. Os compactos sinterizados foram caracterizados por medidas de densidade aparente, difração de raios X e espectroscopia Raman para determinação das fases cristalinas, microscopia eletrônica de varredura para observar as diferentes microestruturas das composições, e medida da condutividade elétrica por espectroscopia de impedância. Os resultados mostraram que os aditivos exercem influência em todas as propriedades investigadas, mas de forma diferente dependendo do tipo e do teor. De forma geral, SrO exerce efeito benéfico na condutividade elétrica intergranular, mas prejudica a densificação. O TiO2 promove um aumento na densificação da céria-gadolínia, mas aumenta também o bloqueio aos portadores de carga nos contornos de grão, além de resultar na formação da fase pirocloro Gd2Ti2O7, quando adicionado em teores acima do limite de solubilidade. O SrTiO3 não produz alterações na densificação da céria-gadolínia. / Ceria containing trivalent rare-earths is a solid electrolyte with higher ionic conductivity than the standard yttria fully-stabilized zirconia ionic conductor. This property turns these ceria-based ionic conductors promising materials for application in solid oxide fuel cells operating at intermediate temperatures (500-700ºC). One of the most utilized approaches to optimize the electrical conductivity and other properties of these materials is the introduction of a second additive. In this work, ceria-20 mol% gadolinia with additions of 1, 2.5 and 5 mol% of SrO, TiO2 and SrTiO3 as co-additives were prepared by solid state reaction. The main purpose was to investigate the effects of the co-additives on densification, microstructure and electrical conductivity of the solid electrolyte. Sintered pellets were characterized by apparent density, X-ray diffraction, Raman spectroscopy, scanning electron microscopy and electrical conductivity by impedance spectroscopy. The additives were found to exert different influences in all studied properties. The way they influence the solid electrolyte properties depends on the type and content of the additive. SrO addition to doped ceria improves the intergranular conductivity, but decreases the apparent density of the pellets. Increase of densification was obtained with TiO2 addition. This additive promotes increase of the blocking of charge carriers at the grain boundaries due to solute exsolution and formation of the pyrochlore Gd2Ti2O7 phase at grain boundaries for contents in excess of the solubility limit. No influence on densification was found for SrTiO3 additions.

additives

aditivos

ceria

céria

condutividade elétrica

densificação

densification

electrical conductivity

microestrutura

microstructure