The emerging of fuel cell as one of the promising future energy sources is due to its vast
advantages and applications. Despite many challenges to commercialize it, nanostructured …

Low-temperature solid oxide fuel cells (LT-SOFCs), operating below 650° C, are attracting a
great interest due to their long-term stability and potential application for stationary and …

The rapid decrease of the electrocatalytic activity at low temperature (< 700℃) limits the
popularization and application of the classical cathode material LSM (Sr doped LaMnO 3) in …

Abstract Nanocomposite electrodes of (Sr 0.7 Pr 0.3) 0.95 TiO 3±δ− Ce 0.9 Gd 0.1 O 1.95
are directly prepared by spray-pyrolysis deposition on Zr 0.82 Y 0.16 O 1.92 electrolytes and …

La0. 98Cr0. 75Mn0. 25O3− δ–Ce0. 9Gd0. 1O1. 95 (LCM-CGO) nanocomposite layers with
different LCM contents, between 40 and 60 wt%, are prepared in a single step by a spray …

Low-temperature solid oxide fuel cells require the use of cathodes with improved
performance. In this context, microstructural optimization is fundamental in order to obtain …

Nanostructured electrodes of Sr0. 98Fe1− xTixO3− δ are evaluated as both cathode and
anode for solid oxide fuel cells. The electrodes are prepared by a low-cost and simple …

Abstract Ce 0.9 Gd 0.1 O 1.95 (CGO) protective layers are prepared by two different methods
to prevent the reaction between the Zr 0.84 Y 0.16 O 1.92 (YSZ) electrolyte and the La 0.6 Sr …

Novel strategies based on spray-pyrolysis deposition are proposed to increase the triple-
phase boundary (TPB) of La0. 8Sr0. 2MnO3− δ (LSM) cathodes in contact with yttria …

The field distribution of oxygen concentration in cathode areas in planar type solid oxide fuel
cell stack seriously affects power output, especially at the outlet of/beneath the …