Solid oxide cells (SOC) play a major role in strategic visions to achieve decarbonization and
climate-neutrality. With its multifuel capability, this technology has received rapidly growing …

Solid oxide cells (SOCs) are highly efficient and environmentally benign devices that can be
used to store renewable electrical energy in the form of fuels such as hydrogen in the solid …

The early-stage degradation behaviour of a porous lanthanum strontium cobalt ferrite
(LSCF) cathode in a solid oxide fuel cell is investigated at a low temperature of 600° C by …

Electrochemical ammonia (NH3) production, an alternative to the energy-intensive Haber
process, has been extensively studied based on the basis of N2 fixation; a high-yield …

Abstract Solid Oxide Fuel Cells (SOFCs) offer low carbon emission and high efficient energy
conversion systems. For the wide commercial distribution of this system, one of the …

In this review paper, a critical assessment of the main degradation processes in three key
components of solid oxide fuel cells and electrolysers (negative and positive electrodes and …

An elementary kinetic model was developed to predict the electrochemical response of
porous LSCF and LSCF-CGO electrodes. The model was validated thanks to experiments …

The Sr segregation at the surface of a perovskite La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ (LSCF)
oxygen electrode is detrimental to the electrochemical performance and durability of energy …

Recent developments in solid oxide cells focus on decreasing operating temperatures
below 600° C for improved cost and electrochemical stability in order to improve viability for …

The electrocatalytic activity of Pr-substituted cerium gadolinium oxide (CGO) was examined
to assess its suitability as a composite air electrode in solid oxide cells. The solid-state …