Layer Resolved Cr Oxidation State Modulation in Epitaxial SrFe0.67Cr0.33O3−δ Thin Films

Understanding how doping influences physicochemical properties of ABO3 perovskite oxides is critical for tailoring their functionalities. In this study, SrFe0.67Cr0.33O3−δ epitaxial thin films were used to examine the effects of Fe and Cr competition on structure and B-site cation oxidation states....

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Veröffentlicht in:Nano letters 2024-11, Vol.24 (45), p.14244-14251
Hauptverfasser: Koirala, Krishna Prasad, Hossain, Mohammad Delower, Wang, Le, Zhuo, Zengqing, Yang, Wanli, Bowden, Mark E., Spurgeon, Steven R., Wang, Chongmin, Sushko, Peter V., Du, Yingge
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Sprache:eng
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Zusammenfassung:Understanding how doping influences physicochemical properties of ABO3 perovskite oxides is critical for tailoring their functionalities. In this study, SrFe0.67Cr0.33O3−δ epitaxial thin films were used to examine the effects of Fe and Cr competition on structure and B-site cation oxidation states. The films exhibit a perovskite-like structure near the film/substrate interface, while a brownmillerite-like structure with horizontal oxygen vacancy channels predominates near the surface. Electron energy loss spectroscopy shows Fe remains Fe3+, while Cr varies from ∼Cr3+ (tetrahedral layers) to ∼Cr4+ (octahedral layers) within brownmillerite phases and becomes ∼Cr4.5+ in perovskite-like phases. Theoretical simulations indicate that Cr–O bond arrangements and the way oxygen vacancies interact with Cr and Fe drive Cr charge disproportionation. High-valent Cr cations introduce additional densities of states near the Fermi level, reducing the optical bandgap from ∼2.0 eV (SrFeO2.5) to ∼1.7 eV (SrFe0.67Cr0.33O3−δ). These findings offer insights into B-site cation doping in the perovskite oxide framework.
ISSN:1530-6984
1530-6992
1530-6992
DOI:10.1021/acs.nanolett.4c03660