The efficiency of SOCF electrodes can be improved by optimizing the microstructure
from alternative preparation methods, such as infiltration and nanostructured electrodes
deposited at low temperature. Recent studies have demonstrated that spray-pyrolysis
deposition is a versatile method to obtain nanostructured electrodes with improved
performance in comparison with conventional electrodes prepared at high sintering
temperatures. Among the different electrodes studied in the last few year, titanium-doped
ferrites are one of the most promising because of their high redox stability and great
electrochemical performance in both oxidizing and reducing conditions2,3. In this work,
(La0.8Sr0.2)0.95Fe1-xTixO3-δ (x=0.2, 0.4) perovskites, hereafter labelled as LSFT02 and
LSFT04, respectively, with different architectures were obtained by spray-pyrolysis
deposition and they were tested as symmetrical electrodes for solid oxide fuel cell (SSOFC).