Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-delta as a potential SOFC anode

Li X; Zhao HL; Gao F; Zhu ZM; Chen N; Shen W

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Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-delta as a potential SOFC anode

机译：共掺杂Y0.08Sr0.92TiO3-δ作为潜在SOFC阳极的合成及电学性能

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Strontium titanate with perovskite structure is one of potential candidates for alternative anodes for solid oxide fuel cells. Co-doped Y0.08Sr0.92TiO3-delta was synthesized via solid-state reaction. The effect of Co-doping on the electrical behavior of Y0.08Sr0.92TiO3-delta was investigated and a doping mechanism was proposed. Compared with Y0.08Sr0.92TiO3-delta, the electrical conductivities of Y0.08Sr0.92CoxTi1-xO3-delta decrease obviously with increasing Co-doping amount at 25-1000 degrees C, while the ionic conductivities increase significantly at 500-1000 degrees C. The addition of Co can increase the oxygen vacancy concentration and enlarge the saddle point critical radius r(c), both of them should be responsible for the remarkably enhanced ionic conductivity of Y0.08Sr0.92CoxTi1-xO3-delta. The decreased electronic conductivity of Y0.08Sr0.92CoxTi1-xO3-delta is ascribed to the lowered Ti3+ concentration, caused by the substitution of Co3+. Co-doping increases the oxygen absorption temperature, and thus widens the operation temperature range of doped-SrTiO3.

机译：具有钙钛矿结构的钛酸锶是固体氧化物燃料电池替代阳极的潜在候选材料之一。通过固相反应合成了共掺杂的Y0.08Sr0.92TiO3-δ。研究了共掺杂对Y0.08Sr0.92TiO3-δ电学行为的影响，并提出了掺杂机理。与Y0.08Sr0.92TiO3-delta相比，在25-1000°C时，随着Co掺杂量的增加，Y0.08Sr0.92CoxTi1-xO3-delta的电导率明显降低，而在500-1000°C时，离子电导率显着提高。 Co的添加可以增加氧的空位浓度并增大鞍点临界半径r（c），这两者都应引起Y0.08Sr0.92CoxTi1-xO3-δ的离子电导率显着提高。 Y0.08Sr0.92CoxTi1-xO3-δ的电子电导率下降归因于由Co3 +取代引起的Ti3 +浓度降低。共掺杂会增加氧气的吸收温度，从而扩大了掺杂SrTiO3的工作温度范围。

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《Solid state ionics》 |2008年第32期|共5页
作者
Li X; Zhao HL; Gao F; Zhu ZM; Chen N; Shen W;
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正文语种 eng
中图分类固体物理学;
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Co-doped Y0.08Sr0.92TiO3-delta; anode; ionic conductivity; mixed conductor; solid oxide fuel cell;

机译：共掺杂Y0.08Sr0.92TiO3-δ;阳极;离子电导率;混合导体;固体氧化物燃料电池;

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1. Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-delta as a potential SOFC anode [J] . Li X, Zhao HL, Gao F, Solid state ionics . 2008,第27a32期

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2. Synthesis and electrical properties of new rare-earth titanium perovskites for SOFC anode applications [J] . F. J. Lepe, J. Fernandez-Urban, L. Mestres, Journal of power sources . 2005,第Oct期

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3. 1-xLa xTiO 3 anodes for SOFCs: Structure and electrical conductivity]]> [J] . M.J. Sayagués, F.J. Gotor, M. Pueyo, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

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4. Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-δ as a potential SOFC anode [C] . International conference on solid state ionics . 2008

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Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-delta as a potential SOFC anode

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