Master's Dissertation
DOI
https://doi.org/10.11606/D.43.2009.tde-12042010-194950
Document
Author
Full name
Rebeca Bacani
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2009
Supervisor
Committee
Fantini, Marcia Carvalho de Abreu (President)
Brito, Giancarlo Esposito de Souza
Freire, Renato Sanches
Brito, Giancarlo Esposito de Souza
Freire, Renato Sanches
Title in Portuguese
Sistemas porosos de zircônia e céria
Keywords in Portuguese
céria
Física da matéria condensada
mesoporoso
SAXS
zircônia
Física da matéria condensada
mesoporoso
SAXS
zircônia
Abstract in Portuguese
Neste trabalho foram desenvolvidas sínteses de ZrO2-x%CeO2, baseadas na preparação da sílica mesoporosa ordenada SBA-15, utilizando um molde de co-polímero tribloco Pluronic P-123, diversos precursores de zircônio e cério e diferentes métodos. Os métodos de síntese testados foram com: precursores a base de cloreto hidratado (com x=50, 70 e 90), precursores a base de cloreto anidro (x=50 e 90), precursores a base de nitrato (x=90), solução supersaturada de nitrato (x=90), do tipo híbrido com Zr, Ce e Si (com 10%mol de Si e x=90), paliçada de Si (com 10 e 30%mol de Si e x=90) e paliçada de Si com temperatura de síntese de 40°C (com 30%mol de Si e x=90). Visando obter paredes compostas por fase cristalina única e grande área supercial, para futuras aplicações em catálise. Os compósitos polímero/(zircônio-cério) sintetizados a partir de cloretos formam uma estrutura lamelar organizada, que se transforma num sistema poroso desordenado após a calcinação para a retirada do molde. O processo de decomposição/remoção do molde até 540°C produz mudanças de fase nos precursores a base dos metais utilizados, além das transformações morfológicas. Para uma concentração de 90% de CeO2 obtém-se um material poroso com paredes homogêneas de estrutura fcc e de maior estabilidade mecânica. Os valores de área supercial e volume de poros dependem fundamentalmente do método de preparação do material e independem da concentração de CeO2. Aumentos signicativos da área supercial (~100m²/g) e do volume de poros (~0,4cm³/g) são obtidos a partir da introdução de sílica nesses sistemas. Foram alcançados área supercial aproximadamente 6 vezes maior e tamanho de cristalito ~4 vezes superior à do material similar nanocristalino preparado por gel-combustão. Esses valores também são iguais aos reportados para os melhores materiais porosos a base de zircônia-céria, preparados por outros métodos, encontrados na literatura.
Title in English
Zirconia-Ceria Porous Systems
Keywords in English
ceria
Condensed matter physics
mesoporous
SAXS
zirconia
Condensed matter physics
mesoporous
SAXS
zirconia
Abstract in English
In this work synthesis of ZrO2-x%CeO2 were developed, based on the formation of ordered mesoporous silica SBA-15, using the triblock co-polymer Pluronic P-123 as template, different precursors of zirconium and cerium and dierent methods. The tested synthesis methods were with: hydrated chloride precursors (with x=50, 70 and 90), anhydrous chloride precursors (x=50 and 90), nitrate precursors (x=90), supersaturated nitrate solution (x=90), hybrid type with Zr, Ce and Si (with 10%mol of Si and x=90), Si palisade (with 10 and 30%mol of Si, and x=90) and Si palisade with synthesis temperature of 40°C (with 30%mol of Si and x=90). Aiming to obtain crystalline single phase walls and large supercial area, for future applications in catalysis. The composites polymer/zirconium-cerium synthesized from chloride precursors formed an organized lamellar structure, which transforms into a disordered porous system after the calcination to remove the template. The template decomposition/removal up to 540°C produces phase transformations in the metallic precursors, besides morphological changes. A CeO2 content of 90% resulted in a porous material with homogeneous walls of fcc structure and better mechanical stability. The values of supercial area and pore volume depend mostly on the preparation method rather than the CeO2 concentration. Signicant increases on supercial area (~100m²/g) and pore volume (~0.4cm³/g) were obtained with the introduction of silica into the material. Supercial area ~6 times larger and crystallite size ~4 times superior to a nanocrystalline similar material, made by gel-combustion were attained. These figures are also equal to the ones reported for the best porous zirconia-ceria materials, prepared by other routes, found in the literature.
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dissertacaoRebecaBacani.pdf (24.26 Mbytes)
Publishing Date
2010-05-12
WARNING: The material described below relates to works resulting from this thesis or dissertation. The contents of these works are the author's responsibility.
- BACANI, R., et al. Mesoporous ZrO2-CeO2 with SiO2 for Catalytic Applications. In 11th International Conference on Advanced Materials- ICAM2009 and VIII SBPMat, Rio de Janeiro, 2009. Proceedings ICAM 2009., 2009. Abstract.
- BACANI, R., et al. Ordered mesoporous ZrO2-CeO2. In 9th. International Conference on Nanostructured Materials (NANO2008), Rio de Janeiro, 2008. Proceedings NANO 2008.Rio de Janeiro : CBPF, 2008. Abstract.
All rights of the thesis/dissertation are from the authors
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