Low-temperature fabrication of an anode-supported SOFC with a proton-conducting electrolyte based on lanthanum scandate using a PLD method

Iguchi Fumitada; Yamane Takuya; Kato Hisashi; Yugami Hiroo

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Low-temperature fabrication of an anode-supported SOFC with a proton-conducting electrolyte based on lanthanum scandate using a PLD method

机译：使用PLD方法低温制造基于质子传导性电解质的基于阳极的SOFC的阳极支撑SOFC

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An anode-supported-type solid oxide fuel cell with a proton-conducting electrolyte composed of LaScO3 co-doped with 32.5 mol% Sr and 2 mol% Co was fabricated using a modified pulsed laser deposition (PLD) method. The modified PLD method, which comprised a conventional PLD method combined with an ultrasonically cleaning procedure, enabled deposition at a temperature lower than the cell fabrication temperatures. Thus, this procedure resulted in the deposition of a dense, gas-tight electrolyte of a poorly sinterable material without interaction between the electrode and electrolyte. The fabricated cell functioned in an intermediate temperature range; open circuit voltages and maximum power densities of the cell were 0.89 V and 8.8 mWcm(-2) at 700 degrees C and 0.91 V and 1.9 mWcm(-2) at 600 degrees C. (C)2015 Elsevier B.V. All rights reserved.

机译：使用改进的脉冲激光沉积（PLD）方法制造具有质子传导电解质的阳极支撑型固体氧化物燃料电池，该质子传导电解质由LaScO3共掺杂32.5 mol％Sr和2 mol％Co组成。改进的PLD方法包括传统的PLD方法和超声清洗程序，可以在低于电池制造温度的温度下进行沉积。因此，该过程导致可烧结性差的材料的致密，气密性电解质的沉积，而电极与电解质之间没有相互作用。制成的电池在中等温度范围内起作用;开路电压和电池的最大功率密度在700摄氏度时为0.89 V和8.8 mWcm（-2），在600摄氏度时为0.91 V和1.9 mWcm（-2）。（C）2015 Elsevier B.V.保留所有权利。

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《Solid state ionics》 |2015年第null期|共5页
作者
Iguchi Fumitada; Yamane Takuya; Kato Hisashi; Yugami Hiroo;
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正文语种 eng
中图分类固体物理学;
关键词
Pulsed laser deposition (PLD); Perovskite-type proton conductor; LaScO3;

机译：脉冲激光沉积（PLD）;钙钛矿型质子导体;LaScO3;

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1. Low-temperature fabrication of an anode-supported SOFC with a proton-conducting electrolyte based on lanthanum scandate using a PLD method [J] . Iguchi Fumitada, Yamane Takuya, Kato Hisashi, Solid state ionics . 2015,第Null期

机译：使用PLD方法低温制造基于质子传导性电解质的基于阳极的SOFC的阳极支撑SOFC
2. Fabrication and Characterization of Anode-Supported Low-Temperature SOFC Based on Gd-Doped Ceria Electrolyte [J] . C. Fu, X. Ge, S. H. Chan, Fuel cells . 2012,第3期

机译：掺G二氧化铈电解质的阳极支撑低温SOFC的制备与表征
3. FABRICATION AND PROPERTIES OF AN ANODE-SUPPORTED TUBULAR IT-SOFC BASED ON LANTHANUM GALLATE [J] . Nigel Sammes, Yanhai Du Ceramic Engineering and Science Proceedings . 2005,第4期

机译：基于镧系镓酸盐的阳极支撑管状IT-SOFC的制备与性能
4. Performance of Anode-Supported Proton-Conducting Solid Oxide Fuel Cells with Lanthanum-based Thin Bilayer Electrolyte [C] . H. Matsuo, G. Kojo, K. Sakata, International Symposium on Solid Oxide Fuel Cells . 2019

机译：阳极支持的质子传导固体氧化物燃料电池的性能与镧系薄双层电解质
5. Physically based dynamic modeling of planar anode-supported sofc cogeneration systems [D] . Albrecht, Kevin J. 2013

机译：平面阳极支撑的SOFC热电联产系统的基于物理的动力学建模
6. Fabrication of Y2O3-Doped Zirconia/Gadolinia-Doped Ceria Bilayer Electrolyte Thin Film SOFC Cells of SOFCs by Single-Pulsed Laser Deposition Processing [O] . T. Mukai, S. Tsukui, K. Yoshida, -1

机译：通过单脉冲激光沉积工艺制备Y2O3掺杂氧化锆/氧化G二氧化铈双层电解质薄膜SOFC的SOFC电池。
7. Processing and characterizations of a novel proton-conducting BaCe0.35Zr0.50Y0.15O3-δ electrolyte and its nickel-based anode composite for anode-supported IT-SOFC [O] . Ashok Kumar Baral, Sungmin Choi, Byung Kook Kim, 2014

机译：新型质子传导性BaCe0.35Zr0.50Y0.15O3-δ电解质及其镍基阳极复合材料的制备及表征

Low-temperature fabrication of an anode-supported SOFC with a proton-conducting electrolyte based on lanthanum scandate using a PLD method

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