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Self‐Recoverable Symmetric Protonic Ceramic Fuel Cell with Smart Reversible Exsolution/Dissolution Electrode

Yuhao Wang, Zheng Wang, Kaichuang Yang, Jiapeng Liu, Yufei Song, Jingwei Li, Zhiwei Hu, Matthew J. Robson, Zhiqi Zhang, Yunfeng Tian, Shenjun Xu, Ying Lu, Ho Mei Law, Feng Liu, Qing Chen, Zhibin Yang, Francesco Ciucci

2024Advanced Functional Materials12 citationsDOIOpen Access PDF

Abstract

Abstract This study unveils a novel concept of symmetric protonic ceramic fuel cells (symm‐PCFCs) with the introduction of a self‐recoverable electrode design, employing the innovative material BaCo 0.4 Fe 0.4 Zr 0.1 Y 0.1 O 3‐δ (BCFZY). This research marks a significant milestone as it demonstrates the bi‐functional electrocatalytic activity of BCFZY for the first time. Utilizing density functional theory simulations, the molecular orbital interactions and defect chemistry of BCFZY are explored, uncovering its unique capability for the reversible exsolution and dissolution of Co‐Fe nanoparticles under redox conditions. This feature is pivotal in promoting both hydrogen oxidation and oxygen reduction reactions. Leveraging this insight, a cell is fabricated exhibiting high electrocatalytic activity and fuel flexibility as evidenced by the peak power densities of ≈350, 287, and 221 mW cm −2 (at 600 °C) with hydrogen, methanol, and methane as fuels, respectively. Experiments also show that the reversible exsolution/dissolution mitigates performance degradation, enabling prolonged operational life through self‐recovery. This approach paves the way for novel, advanced, durable, and commercially viable symm‐PCFCs.

Topics & Concepts

DissolutionMaterials scienceCeramicMethanolDensity functional theoryElectrodeRedoxFuel cellsChemical engineeringElectrocatalystHydrogenFlexibility (engineering)Physical chemistryComposite materialElectrochemistryComputational chemistryOrganic chemistryChemistryMetallurgyStatisticsEngineeringMathematicsAdvancements in Solid Oxide Fuel CellsFuel Cells and Related MaterialsElectrocatalysts for Energy Conversion
Self‐Recoverable Symmetric Protonic Ceramic Fuel Cell with Smart Reversible Exsolution/Dissolution Electrode | Litcius