Journal
JOURNAL OF MEMBRANE SCIENCE
Volume 644, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.memsci.2021.120142
Keywords
Dual-phase membranes; Inner strain; Oxygen permeation; Perovskite; Fluorite
Categories
Funding
- National Natural Science Foundation of China [21776267, 22178332]
- LiaoNing Revitalization Talents Program [XLYC1807066, XLYC1801004]
- Youth Innovation Promotion Association of CAS [Y201829]
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This study found that in dual-phase membranes, the fluorite phase has a lower thermal expansion coefficient, while the perovskite phase has a higher thermal expansion coefficient. The inner strain affects the performance of the dual-phase membranes by limiting the chemical expansion of the perovskite phase.
Inner strain appears in the dual-phase composites due to the different thermal expansion coefficients (TECs). For fluorite and perovskite epitaxial growing films, tensile and compressive strains can promote and inhibit the oxygen ionic transport, respectively. For oxygen permeable membranes, the oxygen ionic transport is closely related to the oxygen permeation flux. Therefore, the inner strain would affect the performance of fluoriteperovskite dual-phase membranes, however, that is still not disclosed. Herein, we found that the fluorite phase with low TECs is slightly stretched and the perovskite phase with high TECs is compressed in dual-phase membranes. The inner strain inhibits chemical expansion of perovskite phase by limiting the redox of B-site cations. Although the perovskite single-phase has the highest oxygen permeation flux, the oxygen permeation flux of dual-phase membranes decreases with increasing the content of perovskite phase. The unusual phenomenon is induced by the compressive strain on perovskite phase limiting the transport of oxygen ions. Therefore, in view of the vital role of inner strain to the chemical expansion and oxygen transport, it cannot be ignored during the design and mechanism discussion of oxygen permeable membranes.
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