Solid oxide fuel cells (SOFCs) are efficient and fuel flexible electrochemical energy
conversion devices that can power the future green society with regards to homes, cars, and …

Solid oxide fuel cells (SOFCs) have the potential to be used in energy conversion
technology. Most of the studies aimed at modifications of anode concerning various issues …

One challenge for the commercial development of solid oxide fuel cells as efficient energy-
conversion devices is thermo-mechanical instability. Large internal-strain gradients caused …

Improved, highly active cathode materials are needed to promote the commercialization of
ceramic fuel cell technology. However, the conventional trial-and-error process of material …

Single‐phase perovskite oxides that contain nonprecious metals have long been pursued
as candidates for catalyzing the oxygen evolution reaction, but their catalytic activity cannot …

Compared with conventional oxygen-ion-conducting solid oxide fuel cells (O–SOFCs),
proton ceramic fuel cells (PCFCs) are more attractive for low-temperature operation due to …

The development of clean and efficient energy conversion and storage systems is becoming
increasingly vital as a result of accelerated global energy consumption. Solid oxide fuel cells …

Protonic ceramic fuel cells (PCFCs) are more suitable for operation at low temperatures due
to their smaller activation energy (E a). Unfortunately, the utilization of PCFC technology at …

Solid oxide electrochemical cells (SOECs) have demonstrated the potential to be highly
efficient devices for electrochemical CO2 reduction (CO2R) at intermediate temperatures …

The commercialization of reversible protonic ceramic electrochemical cells is hindered by
the lack of highly active and durable air electrodes exposed to high concentration of steam …