Jiajia Cui scite author profile

An oxide electrode replacing Ni/YSZ anode for a solid oxide fuel cell (SOFC) is desirable to reduce the carbon deposition under carbonaceous fuel. If this oxide material can simultaneously work as cathode, it will increase the simplicity and stability of an SOFC stack as in a symmetrical SOFC. However, the current oxide electrodes for symmetrical SOFCs are mostly p-type oxides showing compromised conductivity in reducing atmosphere, dictating a thin anode to reduce the ohmic loss. On the contrary, an n-type oxide showing superior electronic conduction in anode chamber will allow a thick anode support, giving room to a thin electrolyte and cathode to reduce the ohmic loss and the diffusion-related loss on the cathode side, respectively. A novel material Fe 0.5 Mg 0.25 Ti 0.25 Nb 0.9 Mo 0.1 O 4-δ (FMTNM) with cations distributed randomly, based on n-type FeNbO 4 , is studied as both cathode and anode for an SOFC. This material synthesized in ambient air was stable in Ar-5% H 2 at 750 • C and showed higher electrical conductivity in reducing atmosphere than in air. It was the first demonstration using an n-type oxide for both cathode and anode due to the conductivity arising from Fe 2+ /Fe 3+ and Mo 5+ /Mo 6+ transition.

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Deformation crossover in nanocrystalline Zr micropillars: The strongest external size

Zhang¹,

Cui²,

Liu³

et al. 2013

Scripta Materialia

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Jiajia Cui

Structural and electrochemical properties of B-site Ru-doped (La0.8Sr0.2)0.9Sc0.2Mn0.8O3-δ as symmetrical electrodes for reversible solid oxide cells

Enhanced oxygen reduction reaction through Ca and Co Co-doped YFeO3 as cathode for protonic ceramic fuel cells

Porous YFe0.5Co0.5O3 thin sheets as cathode for intermediate-temperature solid oxide fuel cells

Ann-Type Oxide Fe_0.5Mg_0.25Ti_0.25Nb_0.9Mo_0.1O_4-δfor Both Cathode and Anode of a Solid Oxide Fuel Cell

Deformation crossover in nanocrystalline Zr micropillars: The strongest external size

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Jiajia Cui

Structural and electrochemical properties of B-site Ru-doped (La0.8Sr0.2)0.9Sc0.2Mn0.8O3-δ as symmetrical electrodes for reversible solid oxide cells

Enhanced oxygen reduction reaction through Ca and Co Co-doped YFeO3 as cathode for protonic ceramic fuel cells

Porous YFe0.5Co0.5O3 thin sheets as cathode for intermediate-temperature solid oxide fuel cells

Ann-Type Oxide Fe0.5Mg0.25Ti0.25Nb0.9Mo0.1O4-δ for Both Cathode and Anode of a Solid Oxide Fuel Cell

Deformation crossover in nanocrystalline Zr micropillars: The strongest external size

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Ann-Type Oxide Fe_0.5Mg_0.25Ti_0.25Nb_0.9Mo_0.1O_4-δfor Both Cathode and Anode of a Solid Oxide Fuel Cell