Microstructural development and oxygen ion mobility in Sr, Ba, and Ca-doped LaAlO<sub>3</sub> perovskites

Villas-Boas, Lúcia Adriana; Goulart, Celso Antonio; Souza, Dulcina Pinatti Ferreira de

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Artigos • Matéria (Rio J.) 25 (03) • 2020 • https://doi.org/10.1590/S1517-707620200003.1101 copy

Microstructural development and oxygen ion mobility in Sr, Ba, and Ca-doped LaAlO₃ perovskites

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

Perovskite-type materials have been extensively investigated in the attempt to find new electrolyte materials for Solid Oxide Fuel Cell that work at low temperatures. Among these materials, LaAlO₃ stands out for presenting considerable ionic conductivity when adequately doped. In this work, pure and Sr, Ba, and Ca-doped LaAlO₃ were studied. The powders were prepared by solid state reaction. Microstructural, structural and electrical conductivity of sintered samples were analyzed by scanning electron microscopy, X-ray diffraction and impedance spectroscopy, respectively. Among the different kinds of dopants, Sr-doped sample presented the higher conductivity, for both the grain ( at 800°C) and total ( at 800°C) conductivity. In all doped samples, the total conductivity is controlled by the grain boundary, i.e., the grain boundary is more resistive than the grain, and the microstructures are heterogeneous and the degree of heterogeneity is determined by the dopant.

Keywords
electrolyte; SOFC; perovskite; lanthanum aluminate

composição	PArâmetro de rede (Å)	volume da célula unitária (Å³)	densidade teórica (g/cm³)	% ρ_T
LAO	3,7914(1)	54,498(5)	6,52	99,9
LSO	3,7923(1)	54,541(6)	6,33	90,1
LBO	3,7920(3)	54,53(1)	6,48	91,3
LCO	3,7920(1)	54,527(6)	6,19	92,0

íons	La³⁺	Sr²⁺	Ba²⁺	C^a2+
Raio Iônico (Å)	1,36	1,44	1,61	1,34

composição	raio crítico (Å)	volume livre (Å³)	Fator de Tole-rância	E_a (eV)
LaAlO₃	0,9055	13,45	1,009	-
La_0,9Sr_0,1AlO_3-δ	0,9016	14,06	1,011	0,93
La_0,97Ba_0,03AlO_3-δ	0,9008	13,72	1,015	1,04
La_0,95Ca_0,05AlO_3-δ	0,9002	13,39	1,008	1,04

composição	temperatura de medida (^oC)	σ_T (S/cm)	referência
La_0,9Sr_0,1AlO_3-δ	800	0,9x10^-2	Este trabalho
La_0,9Ba_0,1AlO_3-δ	800	0,2x10^-2	Este trabalho
La_0,9Ca_0,1AlO_3-δ	800	0,1x10^-2	Este trabalho
LaAlO₃	800	2,0x10^-4	[¹⁹19 CHEN, T.-Y., FUNG, K.-Z. “Comparison of dissolution behavior and ionic conduction between Sr and/or Mg doped LaGaO3 and LaAlO3” Journal of Power Sources, v. 132, pp. 1-10, 2004.]
La_0,9Sr_0,1AlO_3-δ	800	2,0x10^-3	[¹⁰10 NOMURA, K., TANASE, S. “Electrical conduction behavior in (La0.9Sr0.1)MIIIO3−δ (MIII=Al, Ga, Sc, In, and Lu) perovskites” Solid State Ionics, v. 98, pp. 229-236, 1997.]
La_0,9Ba_0,1AlO_3-δ	900	8,9x10^-3	[¹²12 CHEN, T.-Y., PAN, R.-Y., FUNG, K.-Z. “Effect of divalent dopants on crystal structure and electrical properties of LaAlO3 perovskite” Journal of Physics and Chemistry of Solids, v. 69, pp. 540-546, 2008.]
La_0,95Ca_0,05AlO_3-δ	900	1,2x10^-2	[¹²12 CHEN, T.-Y., PAN, R.-Y., FUNG, K.-Z. “Effect of divalent dopants on crystal structure and electrical properties of LaAlO3 perovskite” Journal of Physics and Chemistry of Solids, v. 69, pp. 540-546, 2008.]
8YSZ	800	3,4x10^-2	[²²22 LYBYE, D., POULSEN, F. W., MOGENSEN, M. “Conductivity of A- and B-site doped LaAlO3, LaGaO3, LaScO3 and LaInO3 perovskites” Solid State Ionics, v. 128, pp. 91-103, 2000.]

Laboratório de Hidrogênio, Coppe - Universidade Federal do Rio de Janeiro, em cooperação com a Associação Brasileira do Hidrogênio, ABH2 Av. Moniz Aragão, 207, 21941-594, Rio de Janeiro, RJ, Brasil, Tel: +55 (21) 3938-8791 - Rio de Janeiro - RJ - Brazil
E-mail: revmateria@gmail.com

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[1] Autor Responsável: Lúcia Adriana Villas-Boas

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Microstructural development and oxygen ion mobility in Sr, Ba, and Ca-doped LaAlO3 perovskites

ABSTRACT

Microstructural development and oxygen ion mobility in Sr, Ba, and Ca-doped LaAlO₃ perovskites