Comparison of SOFC cathode microstructure quantified using X-ray nanotomography and focused ion beam-scanning electron microscopy

Nelson G.J.; Harris W.M.; Lombardo J.J.; Izzo Jr. J.R.; Chiu W.K.S.; Tanasini P.; Cantoni M.; Van Herle J.; Comninellis C.; Andrews J.C.; Liu Y.; Pianetta P.; Chu Y.S.

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Comparison of SOFC cathode microstructure quantified using X-ray nanotomography and focused ion beam-scanning electron microscopy

机译：使用X射线纳米断层扫描和聚焦离子束扫描电子显微镜对SOFC阴极显微结构进行定量比较

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X-ray nanotomography and focused ion beam scanning electron microscopy (FIB-SEM) have been applied to investigate the complex 3D microstructure of solid oxide fuel cell (SOFC) electrodes at spatial resolutions of 45 nm and below. The application of near edge differential absorption for x-ray nanotomography and energy selected backscatter detection for FIB-SEM enable elemental mapping within the microstructure. Using these methods, non-destructive 3D x-ray imaging and FIB-SEM serial sectioning have been applied to compare three-dimensional elemental mapping of the LSM, YSZ, and pore phases in the SOFC cathode microstructure. The microstructural characterization of an SOFC cathode is reported based on these measurements. The results presented demonstrate the viability of x-ray nanotomography as a quantitative characterization technique and provide key insights into the SOFC cathode microstructure.

机译：X射线纳米断层扫描和聚焦离子束扫描电子显微镜（FIB-SEM）已用于研究固体氧化物燃料电池（SOFC）电极在45 nm及以下的空间分辨率下的复杂3D微观结构。用于X射线纳米断层扫描的近边缘差分吸收技术和用于FIB-SEM的能量选择背散射检测技术的应用使元素能够在微结构内绘制。使用这些方法，已应用无损3D X射线成像和FIB-SEM连续切片来比较SOFC阴极微结构中LSM，YSZ和孔相的三维元素映射。基于这些测量结果报告了SOFC阴极的微观结构特征。提出的结果证明了X射线纳米断层照相术作为定量表征技术的可行性，并提供了对SOFC阴极微结构的关键见解。

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《Electrochemistry communications》 |2011年第6期|共4页
作者
Nelson G.J.; Harris W.M.; Lombardo J.J.; Izzo Jr. J.R.; Chiu W.K.S.; Tanasini P.; Cantoni M.; Van Herle J.; Comninellis C.; Andrews J.C.; Liu Y.; Pianetta P.; Chu Y.S.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Cathode; Elemental mapping; Heterogeneous functional materials; Solid oxide fuel cell; Transmission x-ray microscopy; X-ray nanotomography;

机译：阴极;元素图;非均质功能材料;固体氧化物燃料电池;透射X射线显微镜;X射线纳米断层扫描;

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1. Comparison of SOFC cathode microstructure quantified using X-ray nanotomography and focused ion beam-scanning electron microscopy [J] . Nelson G.J., Harris W.M., Lombardo J.J., Electrochemistry communications . 2011,第6期

机译：使用X射线纳米断层扫描和聚焦离子束扫描电子显微镜对SOFC阴极显微结构进行定量比较
2. Silica-rubber microstructure visualised in three dimensions by focused ion beam-scanning electron microscopy [J] . TunnicliffeL.B., ThomasA.G., BusfieldJ.J.C. Journal of Microscopy . 2012,第1期

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3. Linking the microstructure, performance and durability of Ni-yttria-stabilized zirconia solid oxide fuel cell anodes using three-dimensional focused ion beam-scanning electron microscopy imaging [J] . James R. Wilson, J. Scott Cronin, Scott A. Barnett Scripta materialia . 2011,第2期

机译：使用三维聚焦离子束扫描电子显微镜成像将镍-钇稳定的氧化锆固体氧化物燃料电池阳极的微观结构，性能和耐用性联系起来
4. Comparison of X-ray Nanotomography and FIB-SEM in Quantifying the Composite LSM/YSZ SOFC Cathode Microstructure [C] . George J. Nelson, William M. Harris, Jeffrey J. Lombardo, International symposium on solid oxide fuel cells;SOFC-XII . 2011

机译：X射线纳米断层照相术和FIB-SEM在定量复合LSM / YSZ SOFC阴极微结构中的比较
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Comparison of SOFC cathode microstructure quantified using X-ray nanotomography and focused ion beam-scanning electron microscopy

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