Guidelines for improving resistance to CO2 of materials for solid state electrochemical systems

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abstract

Alkali earth oxides are present in many ionic and mixed conductors with a potential application in solid state electrochemical or electroceramic devices. Hence, study has been made of the relative risks of carbonation of selective materials based on thermodynamic predictions, with emphasis on ATiO(3) electroceramics, with A = Ca, Sr, Ba, and proton conductors based on AMO(3) perovskites with A=Sr or Ba and M=Ce or Zr. Predictions show that slight A-site deficiency lowers the activity of alkali earth oxide and enhances resistance to CO2; this is confirmed by experimental findings. Thermodynamic predictions also indicate that the high stability of (Ba,Sr)TiO3 and (Ba,Sr)ZrO3 perovskites contributes to attain reasonable resistance to CO2, in spite of the ready carbonation of BaO and SrO. However, these materials show wide gap between the upper and lower limits of resistance to CO2. This gap provides interpretation for the effects of powder preparation and/or ceramic processing on resistance to CO2. It is also shown that the lower and upper limits of resistance to CO2 correlate with the structural tolerance factor of these perovskites. (C) 2010 Elsevier B.V. All rights reserved.

keywords

BARIUM-TITANATE; CARBON-DIOXIDE; STABILITY; DECOMPOSITION; CONDUCTIVITY; PEROVSKITES; OXIDES

subject category

Chemistry; Physics

authors

Brandao, A; Monteiro, JF; Kovalevsky, AV; Fagg, DP; Kharton, VV; Frade, JR

our authors

foto Andrei Kavaleuski

Andrei Kavaleuski

Principal Researcher
foto Jorge Ribeiro Frade

Jorge Ribeiro Frade

Full professor
foto Vladislav Kharton

Vladislav Kharton

Invited Principal Researcher

Groups

3 - Carbon Materials, Composites and Functional Coatings

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Publication Details

type
Journal Article
year
2011
journal
SOLID STATE IONICS
volume
192
publisher
ELSEVIER SCIENCE BV
issn
0167-2738
issue
1
digital object identifier
10.1016/j.ssi.2010.02.006
web of science article identifier
WOS:000292848800006

Journal Metrics (JCR 2019)

Journal Impact Factor
3.107
Journal Impact Factor (5 yrs)
2.904
category normalized journal percentile
58.409

Citations

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