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Article Abstract
Understanding how water vapor interacts with transition metal oxides (TMOs) is critical for tailoring material properties to improve performance and enable new technologies. Despite extensive research efforts, atomic-scale mechanisms underpinning dynamic reactions and reaction-induced phase transitions remain elusive. Here, we use in situ environmental transmission electron microscopy to investigate how water vapor oxidizes vacancy-ordered SrCoO at moderately elevated temperatures, demonstrating that water molecules can initiate oxidation more effectively than oxygen under comparable conditions. We discover a distinct "staging" behavior during the oxidation process: A fully ordered intermediate phase, SrCoO, forms before transitioning into a near-perovskite SrCoO. In addition, antiphase boundaries, originating at step terraces of SrTiO, alleviate strain by creating reversible nanoscale "gaps" during lattice contraction under oxidation, providing a pathway for preserving structural integrity throughout redox cycling. This work provides atomic-level guidance for engineering TMOs by leveraging water vapor to control their redox behavior and tailor functional properties.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12372878 | PMC |
| http://dx.doi.org/10.1126/sciadv.adx8890 | DOI Listing |
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