首页> 美国卫生研究院文献>Journal of Fuel Cell Science and Technology >Fabrication of Y2O3-Doped Zirconia/Gadolinia-Doped Ceria Bilayer Electrolyte Thin Film SOFC Cells of SOFCs by Single-Pulsed Laser Deposition Processing
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Fabrication of Y2O3-Doped Zirconia/Gadolinia-Doped Ceria Bilayer Electrolyte Thin Film SOFC Cells of SOFCs by Single-Pulsed Laser Deposition Processing

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。

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摘要

An 8 -mol. % Y2O3-doped zirconia/10-mol. % GdO2-doped ceria (YSZ/GDC) bilayer electrolyte and a Gd0.5Sr0.5CoO3 (GSCO) cathode were deposited by a single-processing, pulsed laser deposition (PLD) method to fabricate anode support cells. No additional heat treatment was needed. Laser frequencies of 10, 20, and 100 Hz were used to deposit bilayer electrolytes between the NiO–YSZ (NiO:YSZ = 60:40 wt. %) anode substrate and the GSCO cathode thin film. The GDC thin film produced at 10 Hz was smooth, well-crystallized, and highly dense. The crystallinity of the GSCO cathode on the GDC was also improved. We concluded the GDC crystallinity affected the crystallinity of the cathode thin film. The resistivity of the YSZ single layer (5.7 μm thickness) was 1.4 times higher than that of the YSZ/GDC bilayer (YSZ 3.0 μm thickness, GDC 2.7 μm thickness) at 600 °C and that of the YSZ-GDC interface became low. The optimum YSZ thickness was found to be approximately 3.0 μm, at which thickness there was effective blocking of the passage of hydrogen molecules and electrons. A cell with a YSZ (3.0 μm thickness, fabricated at 20 Hz)/GDC (5.0 μm thickness, fabricated at 10 Hz) bilayer and GSCO cathode thin film exhibited a maximum power density of 400 mW·cm–2 at a comparatively low temperature of 600 °C.
机译:8-摩尔。 %Y 2 O 3掺杂的氧化锆/ 10摩尔。通过单脉冲脉冲激光沉积(PLD)方法沉积%的GdO2掺杂的氧化铈(YSZ / GDC)双层电解质和Gd0.5Sr0.5CoO3(GSCO)阴极,以制造阳极支撑电池。不需要额外的热处理。使用10、20和100 Hz的激光频率在NiO–YSZ(NiO:YSZ = 60:40 wt。%)阳极基板和GSCO阴极薄膜之间沉积双层电解质。在10 Hz处产生的GDC薄膜是光滑的,结晶良好的并且高度致密的。 GDC上GSCO阴极的结晶度也得到了改善。我们得出结论,GDC的结晶度影响阴极薄膜的结晶度。在600 C时,YSZ单层(5.7μm厚度)的电阻率是YSZ / GDC双层(YSZ3.0μμm厚度,GDC2.7μm厚度)的电阻率的1.4倍,并且YSZ-GDC界面的电阻率变低。发现最佳的YSZ厚度为约3.0μm,在该厚度下有效地阻止了氢分子和电子的通过。具有YSZ(3.0μm厚度,以20 Hz制作)/ GDC(5.0μμm厚度,以10 Hz制作)双层和GSCO阴极薄膜的电池,其最大功率密度为400 mW·cm –2 在相对较低的600 C温度下。

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