期刊
JOURNAL OF MATERIALS CHEMISTRY A
卷 10, 期 7, 页码 3478-3484出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ta07308g
关键词
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资金
- Royal Academy of Engineering Chair in Emerging Technologies [CIET1819_24]
- EPSRC Centre of Advanced Materials for Integrated Energy Systems (CAM-IES) [EP/P007767/1]
- European Union [10101017709]
- EPSRC [EP/R513180/1]
- US National Science Foundation [DMR-2016453, DMR-1809520]
This study demonstrates the successful stabilization of delta-Bi2O3 phase in vertically aligned nanocomposite (VAN) films. VAN films exhibit high ionic conductivity, opening up new possibilities for their application in functional micro solid oxide fuel cell (SOFC) devices.
delta-Bi2O3 has long been touted as a potential material for use in solid oxide fuel cells (SOFC) due to its intrinsically high ionic conductivity. However, its limited operational temperature has led to stabilising the phase from >725 degrees C to room temperature either by doping, albeit with a compromise in conductivity, or by growing the phase confined within superlattice thin films. Superlattice architectures are challenging to implement in functional mu SOFC devices owing to their ionic conducting channels being in the plane of the film. Vertically aligned nanocomposites (VANs) have the potential to overcome these limitations, as their nanocolumnar structures are perpendicular to the plane of the film, hence connecting the electrodes at top and bottom. Here, we demonstrate for the first time the growth of epitaxially stabilised delta-Bi2O3 in VAN films, stabilised independently of substrate strain. The phase is doped with Dy and is formed in a VAN film which incorporates DyMnO3 as a vertically epitaxially stabilising matrix phase. Our VAN films exhibit very high ionic conductivity, reaching 10(-3) S cm(-1) at 500 degrees C. This work opens up the possibility to incorporate thin film delta-Bi2O3 based VANs into functional mu SOFC devices, either as cathodes (by pairing delta-Bi2O3 with a catalytically active electronic conductor) and/or electrolytes (by incorporating delta-Bi2O3 with an insulator).
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