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Oxygen Reduction Activity Enhancement of Solid Oxide Fuel Cell Cathode via a Tiny Amount of Ni Doping

Depeng Zeng, Feng Zhu, Kang Xu, Yangsen Xu, Yu Chen

2025Advanced Functional Materials12 citationsDOI

Abstract

Abstract The predictable consequences of pollution and global warming force the attention to focus on clean and sustainable energy devices like solid oxide fuel cells (SOFCs). One crucial component of SOFCs is the advanced cathode material with excellent oxygen reduction reaction (ORR) activity and outstanding operating stability. Herein, a novel Ni‐doped cathode material with a detailed composition of Pr 0.5 Ba 0.4 Ca 0.1 Co 1‐x Ni x O 3‐δ (PBCCNi x , x = 0, 0.0125, 0.025) is successfully synthesized and evaluated. The unconventionally low Ni doping amount optimizes the oxygen defects on PBCCNi 0.0125 , enhancing the oxygen surface absorption and ORR activity. Among the cathodes investigated in this study, PBCCNi 0.0125 exhibits the best catalytic ORR activity, showing a low area‐specific resistance of 0.0152 Ω cm −2 at 800 °C. Ultimately, a single cell with PBCCN 0.0125 shows a peak power density of 1.72 W cm −2 , compared to that of 1.29 W cm −2 for the cell with PBCC without Ni doping. Besides, better stability of PBCCNi 0.0125 cathode on SOFCs operation conditions is also testified on a 200 h operating test. The optimization of oxygen defect concentration on PBCCNi 0.0125 would be a possible explanation for the performance enhancement, indicating that PBCCNi 0.0125 is a promising cathode material.

Topics & Concepts

Materials scienceOxygen reductionCathodeOxygen reduction reactionFuel cellsDopingOxygenOxideSolid oxide fuel cellReduction (mathematics)Chemical engineeringNanotechnologyInorganic chemistryOptoelectronicsMetallurgyElectrodeElectrochemistryAnodeElectrical engineeringPhysical chemistryOrganic chemistryMathematicsChemistryEngineeringGeometryAdvancements in Solid Oxide Fuel CellsElectronic and Structural Properties of OxidesFuel Cells and Related Materials
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