期刊
CHEMISTRY OF MATERIALS
卷 30, 期 8, 页码 2838-2847出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.chemmater.8b01029
关键词
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资金
- Welch Foundation [F-1254]
To evaluate the self-regeneration feasibility of exsolved Co-Fe nanoparticles on the La0.3Sr0.7Cr0.3Fe0.6Co0.1O3-delta perovskite at intermediate operation temperature (700 degrees C), the evolution of surface morphology and particle phases during a redox process has been determined by scanning and transmission electron microscopy. Unlike the complete reincorporation of the exsolved metals back to the perovskite lattice at 800 degrees C during the reoxidation process, the transition-metal oxide remains on the surface as an intermediate phase because of a sluggish reincorporation rate at 700 degrees C. Although the transition-metal oxide particles grow and coarsen quickly in an oxidizing atmosphere, the nanoparticles could still be formed by a disintegration of the reduced spinel oxide in a reducing atmosphere. The hemispherical-like shape of the nanoparticles can be achieved by minimizing metallic surface energy and maintaining the strong metal oxide interaction. The redispersion of Co-Fe nanoparticles completes the self-regeneration process at 700 degrees C. The exsolved nanoparticle size distribution is strongly affected by temperature but not by a redox process, which improves performance stability and reactivation at the relatively lower temperature during long-term operation.
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