Zapata-Ramírez Víctor, Dos Santos-Gómez Lucía, Mather Glenn C, Marrero-López David, Pérez-Coll Domingo
Instituto de Cerámica y Vidrio, CSIC, Campus de Cantoblanco, 28049 Madrid, Spain.
Departamento de Quı́mica Inorgánica, Universidad de Málaga, 29071 Málaga, Spain.
ACS Appl Mater Interfaces. 2020 Mar 4;12(9):10571-10578. doi: 10.1021/acsami.9b22966. Epub 2020 Feb 21.
The potential of interactive layers of mixed-conducting oxides for improving the performance of air electrodes of solid oxide cells in the intermediate-temperature range is demonstrated. Active layers of CeGdO (CGO), CePrO (CPO), and SrFeMoO (SFM) with thickness in the range 200-400 nm are deposited on CGO-based electrolyte by spray pyrolysis, followed by deposition of a SFM/CGO composite air electrode by painting. The morphologies and phase composition of the active layers are examined by X-ray diffraction, scanning electron microscopy, and energy-dispersive X-ray spectroscopy microanalysis. The electrochemical performance of the electrolyte-electrode assemblies is determined by impedance spectroscopy in the range 600-800 °C. Significant improvements in the performance of the electrode process and the geometrically normalized ohmic conductance are observed for the assembly with a CPO active layer with mixed-oxide-ionic-electronic conductivity, especially in the low-temperature range, attributable to extension of the surface path of the electrochemical reactions. The CGO intermediate layer also improves performance but to a lesser degree, most likely due to better ionic-current collection in comparison to the assemblies with either SFM as the active layer or no active layer.
本文展示了混合导电氧化物的交互层在提高中温范围内固体氧化物电池空气电极性能方面的潜力。通过喷雾热解在基于CGO的电解质上沉积厚度为200 - 400 nm的CeGdO(CGO)、CePrO(CPO)和SrFeMoO(SFM)活性层,随后通过涂覆沉积SFM/CGO复合空气电极。通过X射线衍射、扫描电子显微镜和能量色散X射线光谱微分析来研究活性层的形貌和相组成。通过在600 - 800°C范围内的阻抗谱来测定电解质 - 电极组件的电化学性能。对于具有混合氧化物 - 离子 - 电子导电性的CPO活性层的组件,观察到电极过程性能和几何归一化欧姆电导率有显著改善,特别是在低温范围内,这归因于电化学反应表面路径的延长。CGO中间层也能提高性能,但程度较小,最有可能是因为与以SFM为活性层或无活性层的组件相比,其离子电流收集效果更好。
