Nanostructured LnBaCo2O6?𝜹 (Ln = Sm, Gd) with layered structure for intermediate temperature solid oxide fuel cell cathodes

Augusto E. Mejía Gómez; Diego G. Lamas; Ana Gabriela Leyva; Joaquín Sacanell

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Nanostructured LnBaCo2O6?𝜹 (Ln = Sm, Gd) with layered structure for intermediate temperature solid oxide fuel cell cathodes

机译：纳米结构LnBaCo2O6？＆＃x1d739; （Ln = Sm，Gd）具有中温固体氧化物燃料电池阴极的分层结构

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In this work, we present the combination of two characteristics that are beneficial for solid oxide fuel cell (SOFC) cathodic performance in one material. We developed and evaluated for the first time nanostructured layered perovskites of formulae LnBaCo₂O_6-d with Ln = Sm and Gd (SBCO and GBCO, respectively) as SOFC cathodes, finding promising electrochemical properties in the intermediate temperature range. We obtained those nanostructures by using porous templates to confine the chemical reagents in regions of 200-800 nm. The performance of nanostructured SBCO and GBCO cathodes was analyzed by electrochemical impedance spectroscopy technique under different operating conditions using Gd₂O₃-doped CeO₂ as electrolyte. We found that SBCO cathodes displayed lower area-specific resistance than GBCO ones, because bulk diffusion of oxide ions is enhanced in the former. We also found that cathodes synthesized using smaller template pores exhibited better performance.

机译：在这项工作中，我们提出了两种特性的组合，这些特性对于在一种材料中的固体氧化物燃料电池（SOFC）阴极性能非常有益。我们首次开发并评估了LnBaCo _{2 O _{6-d 纳米结构层状钙钛矿，其中Ln = Sm和Gd（分别为SBCO和GBCO）作为SOFC阴极，在中等温度范围内发现有希望的电化学性能。我们通过使用多孔模板将化学试剂限制在200-800 nm的区域中获得了这些纳米结构。采用掺杂Gd _{2 O _{3 的CeO _{2 作为电化学阻抗谱技术，分析了不同工作条件下SBCO和GBCO纳米结构阴极的性能。电解质。我们发现，SBCO阴极显示的比表面积电阻比GBCO阴极低，这是因为前者增强了氧化物离子的整体扩散。我们还发现，使用较小的模板孔合成的阴极表现出更好的性能。}}}}}

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《AIP Advances》 |2017年第4期|共页
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Augusto E. Mejía Gómez; Diego G. Lamas; Ana Gabriela Leyva; Joaquín Sacanell;
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1. Nanostructured LnBaCo2O6?𝜹 (Ln = Sm, Gd) with layered structure for intermediate temperature solid oxide fuel cell cathodes [J] . Augusto E. Mejía Gómez, Diego G. Lamas, Ana Gabriela Leyva, AIP Advances . 2017,第4期

机译：纳米结构LnBaCo2O6？＆＃x1d739; （Ln = Sm，Gd）具有中温固体氧化物燃料电池阴极的分层结构
2. Layered LnBa_(1-χ)Sr_χCoCuO_(5+δ) (Ln = Nd and Gd) perovskite cathodes for intermediate temperature solid oxide fuel cells [J] . Matthew West, Arumugam Manihiram International journal of hydrogen energy . 2013,第8期

机译：用于中温固体氧化物燃料电池的层状LnBa_（1-χ）Sr_χCoCuO_（5 +δ）（Ln = Nd和Gd）钙钛矿阴极
3. Polarization Resistances of (Ln1−xSrx)CoO3 (Ln=Pr, Nd, Sm, and Gd x=0, 0.3, 0.5, 0.7, and 1) as Cathode Materials for Intermediate Temperature-operating Solid Oxide Fuel Cells [J] . Jung Hyun Kim Seung-Wook Baek and Joongmyeon Bae Journal of Fuel Cell Science and Technology . 2009,第3期

机译：（Ln1-xSrx）CoO3（Ln = Pr，Nd，Sm和Gd x = 0、0.3、0.5、0.7和1）作为中间温度可操作固体氧化物燃料电池正极材料的极化电阻
4. Synthesis and Characterization of LnBaCo_2O_(5+δ) Layered Perovskites as Cathodes for Intermediate-Temperature Solid Oxide Fuel Cells [C] . W. Wang, T. S. Peh, S. H. Chan, Solid oxide fuel cells 11 (SOFC-XI) . 2009

机译：LnBaCo_2O_（5 +δ）层状钙钛矿作为中温固体氧化物燃料电池阴极的合成与表征
5. Stability of cobalt oxide infiltrated LSM/TZ8Y cathode for solid oxide fuel cells at intermediate temperatures. [D] . Chen, Xuan. 2008

机译：固态氧化物燃料电池用氧化钴渗透的LSM / TZ8Y阴极在中间温度下的稳定性。
6. SmBa1-xCaxCo2O5+d Layered Perovskite Cathodes for Intermediate Temperature-operating Solid Oxide Fuel Cells [O] . Kyeong Eun Song, Sung Hun Woo, Seung Wook Baek, 2020

机译：SMBA1-XCAXCO2O5 + D层钙钛矿阴极用于中间温度工作的固体氧化物燃料电池
7. Nanostructured LnBaCo2O6− (Ln = Sm, Gd) with layered structure for intermediate temperature solid oxide fuel cell cathodes [O] . Augusto E. Mejía Gómez, Diego G. Lamas, Ana Gabriela Leyva, 2017

机译：具有层状结构的纳米结构LnBaCo2O6-（Ln = sm，Gd）用于中温固体氧化物燃料电池阴极

Nanostructured LnBaCo2O6?𝜹 (Ln = Sm, Gd) with layered structure for intermediate temperature solid oxide fuel cell cathodes

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