Yu Mishima scite author profile

A composite oxide containing samaria-doped ceria [SDC, (CeO2)0 0(Sm01 5)02] and yttria-stabilized zirconia [YSZ, (Zr02)092(Y203)008] was developed as an electrolyte for a solid oxide fuel cell (SOFC). A SOFC with a YSZ electrolyte was characterized by a high open-circuit voltage (OCV) and a steep decrease in voltage, V, with increasing current, I, whereas that with a SDC electrolyte exhibited a low OCV and a gradual decrease of its V-I curve. A biphasic electrolyte microstructure with SDC and YSZ was proposed in which SDC grains are dispersed in a YSZ matrix. In this composite structure, the electronic conduction caused by reduction of the SDC was effectively blocked by the YSZ matrix. An SOFC with this composite electrolyte offered the advantages of YSZ with its high OCV and SDC with its gradual decrease of the V-I curve. The SDC content and the particle size significantly affected the power-generation characteristics of a cell with this composite electrolyte. The electrode polarization was significantly lowered by using the SDC or the composite electrolyte. InfroductionA solid oxide fuel cell (SOFC) is regarded as a highly efficient power-generation system for future applications. The most popular components for SOFCs are a thin film of yttria-stabilized zirconia (YSZ) electrolyte, Ni-YSZ cermet fuel electrodes, and LairSrMnOs (LSM) air electrodes.

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Electrochemical behavior of new designed ion exchange membrane prepared from polymer gel in contact with redox substances: I

Yamauchi

Mishima

Sayed

et al. 2006

Journal of Membrane Science

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CyARM

Ito

Okamoto

Akita

et al. 2005

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Yu Mishima

Interfacial tension and wetting behavior of air/oil/ionic liquid systems

Solid Oxide Fuel Cell with Composite Electrolyte Consisting of Samaria‐Doped Ceria and Yttria‐Stabilized Zirconia

Electrochemical behavior of new designed ion exchange membrane prepared from polymer gel in contact with redox substances: I

CyARM

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