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Smart Dual‐Exsolved Self‐Assembled Anode Enables Efficient and Robust Methane‐Fueled Solid Oxide Fuel Cells

Feng Hu, Kongfa Chen, Yihan Ling, Yonglong Huang, Sunce Zhao, Sijiao Wang, Liangqi Gui, Beibei He, Ling Zhao

2023Advanced Science31 citationsDOIOpen Access PDF

Abstract

Abstract Perovskite oxides have emerged as alternative anode materials for hydrocarbon‐fueled solid oxide fuel cells (SOFCs). Nevertheless, the sluggish kinetics for hydrocarbon conversion hinder their commercial applications. Herein, a novel dual‐exsolved self‐assembled anode for CH 4 ‐fueled SOFCs is developed. The designed Ru@Ru‐Sr 2 Fe 1.5 Mo 0.5 O 6‐δ (SFM)/Ru‐Gd 0.1 Ce 0.9 O 2‐δ (GDC) anode exhibits a unique hierarchical structure of nano‐heterointerfaces exsolved on submicron skeletons. As a result, the Ru@Ru‐SFM/Ru‐GDC anode‐based single cell achieves high peak power densities of 1.03 and 0.63 W cm −2 at 800 °C under humidified H 2 and CH 4 , surpassing most reported perovskite‐based anodes. Moreover, this anode demonstrates negligible degradation over 200 h in humidified CH 4 , indicating high resistance to carbon deposition. Density functional theory calculations reveal that the created metal‐oxide heterointerfaces of Ru@Ru‐SFM and Ru@Ru‐GDC have higher intrinsic activities for CH 4 conversion compared to pristine SFM. These findings highlight a viable design of the dual‐exsolved self‐assembled anode for efficient and robust hydrocarbon‐fueled SOFCs.

Topics & Concepts

AnodeMaterials scienceOxideChemical engineeringMethaneHydrocarbonCarbon fibersElectrodeChemistryComposite materialPhysical chemistryMetallurgyOrganic chemistryComposite numberEngineeringAdvancements in Solid Oxide Fuel CellsElectrocatalysts for Energy ConversionElectronic and Structural Properties of Oxides
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