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Comparison between ultrathin films of YSZ deposited at the solid oxide fuel cell cathode/electrolyte interface by atomic layer deposition, dip-coating or sputtering

机译：通过原子层沉积，浸涂或溅射在固体氧化物燃料电池阴极/电解质界面沉积的YSZ超薄膜之间的比较

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The effect of an 80 nm YSZ interfacial layer, deposited onto a YSZ pellet by different techniques (dip-coating, sputtering and atomic layer deposition) at the SOFC cathode/electrolyte interface to allow a maximum adhesion of the thick cathode layer, was thoroughly analysed. The LSM cathode was deposited on the solid electrolyte by painting and sintered in air at 1200°C for 2 h. The morphological and structural analyses of the samples were performed by scanning electron microscopy and X-ray diffraction; their electrical properties were examined between 390 and 700°C by electrochemical impedance spectroscopy. The impedance responses showed three different contributions. The highfrequency arc is attributed to the YSZ electrolyte. The electrode processes associated with the medium- and low frequency arcs were discussed. The electrochemical performance was influenced by the microstructure at the electrode/electrolyte interface.

机译：彻底分析了通过不同技术（浸涂，溅射和原子层沉积）在SOFC阴极/电解质界面处沉积到YSZ颗粒上的80 nm YSZ界面层的作用，以使厚阴极层获得最大附着力。通过喷涂将LSM阴极沉积在固体电解质上，并在1200°C的空气中烧结2小时。样品的形貌和结构分析通过扫描电子显微镜和X射线衍射进行。通过电化学阻抗光谱法在390至700°C之间检查了它们的电性能。阻抗响应显示出三个不同的贡献。高频电弧归因于YSZ电解液。讨论了与中低频电弧相关的电极工艺。电化学性能受到电极/电解质界面的微观结构的影响。

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Benamira Messaoud; Ringuede Armelle; Cassir Michel; Horwat David; Pierson Jean-François; Lenormand Pascal; Ansart Florence; Bassat Jean-Marc; Fullenwarth Julien;
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年度 2009
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正文语种 {"code":"en","name":"English","id":9}
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1. Comparison Between Ultrathin Films of YSZ Deposited at the Solid OxideFuel Cell Cathode/Electrolyte Interface by Atomic Layer Deposition, Dip-Coating or Sputtering [J] . M. Benamira, A. Ringuedé, M. Cassir, The Open Fuels & Energy Science Journal . 2017,第1期

机译：原子层沉积，浸涂或溅射沉积在固体氧化物燃料电池阴极/电解质界面的YSZ超薄膜的比较
2. Effect of plasma-enhanced atomic layer deposited YSZ inter-layer on cathode interface of GDC electrolyte in thin film solid oxide fuel cells [J] . Lee Sanghoon, Lee Yeageun, Park Joonho, Renewable energy . 2019,第DECa期

机译：等离子体增强原子层沉积的YSZ中间层对薄膜固体氧化物燃料电池GDC电解质阴极界面的影响
3. Solid oxide fuel cells with YSZ-BNO Bi-layer electrolyte film deposited by magnetron sputtering [J] . Sea-Fue Wang, Yung-Fu Hsu, Yu-Chia Huang CERAMICS INTERNATIONAL . 2011,第7期

机译：磁控溅射沉积YSZ-BNO双层电解质膜的固体氧化物燃料电池
4. La{sub}(1-x)Sr{sub}xCoO{sub}(3-δ) (LSC)-Ce{sub}0.8Sm{sub}0.2O{sub}(2-λ)(SDC) composite cathodes for anode supported, YSZ-SDC Bi-Layer electrolyte, thin film, solid oxide fuel cells [C] . Yi Jiang, Anil V. Virkar International symposium on Ionic and Mixed Conducting Ceramics . 2002

机译：La {sub}（1-x）sr {sub} xcoo {sub}（3-Δ）（lsc）-ce {sub} 0.8s0m×sub} 0.2o {sub}（2-λ）（SDC）复合阴极对于支持的阳极，YSZ-SDC双层电解质，薄膜，固体氧化物燃料电池
5. Atomic Layer Deposited Thin Films for Dielectrics, Semiconductor Passivation, and Solid Oxide Fuel Cells. [D] . Xu, Runshen. 2013

机译：用于电介质，半导体钝化和固体氧化物燃料电池的原子层沉积薄膜。
6. Surface engineering of nanoporous substrate for solid oxide fuel cells with atomic layer-deposited electrolyte [O] . Sanghoon Ji, Waqas Hassan Tanveer, Wonjong Yu, 2015

机译：具有原子层沉积电解质的固体氧化物燃料电池纳米孔基底的表面工程
7. Comparison between ultrathin films of YSZ deposited at the solid oxide fuel cell cathode/electrolyte interface by atomic layer deposition, dip-coating or sputtering [O] . Benamira, Messaoud, Ringuede, Armelle, Cassir, Michel, 2009

机译：通过原子层沉积，浸涂或溅射在固体氧化物燃料电池阴极/电解质界面沉积的YSZ超薄膜之间的比较

Comparison between ultrathin films of YSZ deposited at the solid oxide fuel cell cathode/electrolyte interface by atomic layer deposition, dip-coating or sputtering

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