The effect of yttria co-doping of scandia zirconia on stabilisation and ionic conductivity has
been investigated. Compositions in the ternary system (Y2O3) x (Sc2O3)(11− x)(ZrO2) 89 …

Conductivity of several compositions in the scandia–zirconia system (Sc2O3 content
between 7.0 and 11.0 mol%) has been investigated as a function of temperature and time at …

A powder of nominal composition (ZrO2) 0.886 (Sc2O3) 0.104 (Al2O3) 0.01 was synthesized
by spray drying with the purpose of testing the performance of solid oxide fuel cells …

Zirconia stabilized with 8 mol% scandia (8ScSZ) powder was synthesized using glycine
nitrate process (GNP) for use as the electrolyte of an intermediate temperature solid oxide …

The shortcomings of high-temperature solid oxide fuel cells necessitate research on SOFCs
designs that are capable of operation at intermediate temperatures (600–800° C), the so …

Scandia-stabilised zirconia (ScSZ) electrolyte materials exhibit the highest conductivity of all
the zirconia systems, but the degradation in the ScSZ system has only been investigated yet …

Scandia stabilised zirconias offer much better electrical performance than conventional yttria
stabilised materials; however, the limited availability and high cost of scandia have generally …

Electrical and structural properties of bismuth oxide doped scandia-stabilized zirconia
(ScSZ) electrolyte for solid oxide fuel cells (SOFCs) have been evaluated by means of XRD …

Solid oxide fuel cells (SOFCs) are recognized as an energy generation device with high
power density and energy conversion efficiency, low noise, low greenhouse gas emissions …

The most important component of the solid oxide fuel cell (SOFC) is the dense electrolyte.
Besides gastightness it must fulfill the requirements of good ionic conductivity and stability in …