Atomistic Investigation of the Second Phase Precipitation in (Sr,La)TiO_3 Interconnect Material

机译：（Sr，La）TiO_3互连材料中第二相沉淀的原子学研究

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We investigated the second phase precipitation in (Sr,La)TiO_3 interconnect materials in SOFC by utilizing first-principles calculation. Our calculation showed that homologous phase La_2Ti_2O_7 is more stable than monoclinic pyrochlore phase by 0.59 eV/f.u. From the consideration of the precipitation mechanism and phase stability, Ruddlesden-popper phase and homologous phase are thought to precipitate within perovskite lattice under SOFC operation. Calculated band gaps of Ruddlesden-popper phase, pyrochlore phase and homologous phase were larger than that of pristine SrTiO_3. These intrinsic electronic state of precipitates should affect the electrical conductivity of (Sr,La)TiO_3 ceramics. Defect formation energy showed that La element and cation vacancy tend to segregate at grain boundaries, and work as sources of the precipitation.

机译：我们利用第一性原理计算研究了SOFC中（Sr，La）TiO_3互连材料中的第二相沉淀。我们的计算表明，同质相La_2Ti_2O_7比单斜质烧绿石相稳定0.59 eV / f.u。考虑到沉淀机理和相稳定性，认为在SOFC操作下，Ruddlesden-popper相和同源相在钙钛矿晶格内沉淀。 Ruddlesden-popper相，烧绿石相和同源相的计算带隙均大于原始SrTiO_3。沉淀物的这些固有电子状态应影响（Sr，La）TiO_3陶瓷的电导率。缺陷形成能表明，La元素和阳离子空位倾向于在晶界偏析，并作为沉淀的来源。

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《International Symposium on Solid Oxide Fuel Cells》|2013年|2773-2782|共10页
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K. Nakamura; M. Mori; T. Ohnuma;
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Atomistic Investigation of the Second Phase Precipitation in (Sr,La)TiO_3 Interconnect Material

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