Water electrolysis toward elevated temperature: advances, challenges and frontiers
Since severe global warming and related climate issues have been caused by the extensive
utilization of fossil fuels, the vigorous development of renewable resources is needed, and …
utilization of fossil fuels, the vigorous development of renewable resources is needed, and …
Defect engineering of oxide perovskites for catalysis and energy storage: synthesis of chemistry and materials science
Oxide perovskites have emerged as an important class of materials with important
applications in many technological areas, particularly thermocatalysis, electrocatalysis …
applications in many technological areas, particularly thermocatalysis, electrocatalysis …
Rational design of perovskite ferrites as high-performance proton-conducting fuel cell cathodes
The biggest obstacle to the commercialization of protonic ceramic fuel cells (PCFCs) is the
lack of high-performance, low-cost cathode materials. Currently, the most promising cathode …
lack of high-performance, low-cost cathode materials. Currently, the most promising cathode …
An Efficient High‐Entropy Perovskite‐Type Air Electrode for Reversible Oxygen Reduction and Water Splitting in Protonic Ceramic Cells
F He, Y Zhou, T Hu, Y Xu, M Hou, F Zhu… - Advanced …, 2023 - Wiley Online Library
Reversible protonic ceramic electrochemical cells (R‐PCECs) are emerging as ideal
devices for highly efficient energy conversion (generating electricity) and storage (producing …
devices for highly efficient energy conversion (generating electricity) and storage (producing …
[HTML][HTML] A comprehensive review of recent progresses in cathode materials for Proton-conducting SOFCs
Y Gao, M Zhang, M Fu, W Hu, H Tong, Z Tao - Energy Reviews, 2023 - Elsevier
Solid oxide fuel cells (SOFCs) are widely recognized as efficient energy sources that have
the potential to shape the future of energy development. Among various types of SOFCs, the …
the potential to shape the future of energy development. Among various types of SOFCs, the …
A new durable surface nanoparticles‐modified perovskite cathode for protonic ceramic fuel cells from selective cation exsolution under oxidizing atmosphere
A high‐performance cathode of a protonic ceramic fuel cell (PCFC) should possess
excellent oxygen reduction reactivity, high proton/oxygen‐ion/electron conductivity, and …
excellent oxygen reduction reactivity, high proton/oxygen‐ion/electron conductivity, and …
Advanced cathode materials for protonic ceramic fuel cells: recent progress and future perspectives
Intermediate‐temperature proton ceramic fuel cells (PCFCs)–a promising power generation
technology–have attracted significant attention in recent years because of their unique …
technology–have attracted significant attention in recent years because of their unique …
The BaCe 0.16 Y 0.04 Fe 0.8 O 3− δ nanocomposite: A new high-performance cobalt-free triple-conducting cathode for protonic ceramic fuel cells operating at …
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 …
proton ceramic fuel cells (PCFCs) are more attractive for low-temperature operation due to …
A real proton‐conductive, robust, and cobalt‐free cathode for proton‐conducting solid oxide fuel cells with exceptional performance
The development of proton, oxygen‐ion, and electron mixed conducting materials, known as
triple‐conduction materials, as cathodes for proton‐conducting solid oxide fuel cells (H …
triple‐conduction materials, as cathodes for proton‐conducting solid oxide fuel cells (H …
Self-assembled triple-conducting nanocomposite as a superior protonic ceramic fuel cell cathode
Here, we report an oxygen ion-proton-electron-conducting nanocomposite, BaCo 0.7 (Ce
0.8 Y 0.2) 0.3 O 3-δ (BCCY), derived from a self-assembly process, as a high-performance …
0.8 Y 0.2) 0.3 O 3-δ (BCCY), derived from a self-assembly process, as a high-performance …