A critical new research direction in solid oxide cells (SOCs) is related to balancing power-
grid load or integrating heat-electricity-gas interconnection simply by switching operations …

Lowering the operating temperature (450–650° C) of solid oxide fuel cells (SOFCs) faces the
intrinsic challenge of sluggish electrode reaction kinetics in the low temperature (LT) range …

An ideal solid oxide fuel cell (SOFC) cathode should meet multiple requirements, ie, high
activity for oxygen reduction reaction (ORR), good conductivity, favorable stability, and …

Abstract New two-layer Ruddlesden—Popper (RP) oxide La 0.25 Sr 2.75 FeNiO 7− δ
(LSFN) in the combination of Sr 3 Fe 2 O 7− δ and La 3 Ni 2 O 7− δ was successfully …

Abstract High temperature H 2 O/CO 2 co-electrolysis using solid oxide electrolysis cells is a
promising method to produce syngas (a mixture of H 2 and CO), which can be used as …

As a clean and efficient energy conversion device, solid oxide fuel cells have been
garnering attention due to their environmentally friendly and fuel adaptability. Consequently …

Fe-based perovskite PrBaFe 2 O 5+ δ is inactive toward the oxygen reduction reaction
(ORR) due to the sluggish oxygen-ion transport kinetics. Herein, Mo doping is developed as …

Abstract The SrFe 0.8 W 0.2 O 3-δ (SFW) perovskite oxide which is prepared by a modified
citrate-EDTA-nitrate combustion method is developed as an electrode material for …

This work systematically investigates the effects of single A-site dopant (5 mol% La 3+, Sm
3+ and Gd 3+) and single B-site dopant (5 mol% Zr 4+ and Ce 4+) on the structure and …

The development of solid oxide electrochemical cells (SOCs) coincides with the policy of
emission peak and carbon neutrality, and possesses significant commercial prospects in the …