Determining the Oxygen Stoichiometry of Cobaltite Thin Films

Transition metal oxides (TMO) are promising materials to realize low-power neuromorphic devices. Their physical properties critically depend on their oxygen vacancy concentrations, whose experimental determination remains a challenging task. Here we focus on cobaltites, in particular La1-xSrxCoO3-d...

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Bibliographic Details
Published in:Chemistry of materials 2022-02, Vol.34 (5)
Main Authors: Zhang, Shenli, Chiu, I-Ting, Lee, Min-Han, Gunn, Brandon, Feng, Mingzhen, Park, Tae Joon, Shafer, Padraic, N’Diaye, Alpha T., Rodolakis, Fanny, Ramanathan, Shriram, Frañó, Alex, Schuller, Ivan K., Takamura, Yayoi, Galli, Giulia
Format: Article
Language:English
Subjects:
chemical structure
defects in solids
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
MATERIALS SCIENCE
oxygen
perovskites
phase transitions
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Summary:Transition metal oxides (TMO) are promising materials to realize low-power neuromorphic devices. Their physical properties critically depend on their oxygen vacancy concentrations, whose experimental determination remains a challenging task. Here we focus on cobaltites, in particular La1-xSrxCoO3-d (LSCO), and we present a strategy to identify fingerprints of oxygen vacancies in X-ray absorption (XA) spectra. Using a combination of experiment and theory, we show that the variation of the oxygen vacancy concentration in the perovskite phase of LSCO is correlated with the change of the relative peak positions of the O K-edge XA spectra. Furthermore, we also identify an additional geometrical fingerprint that captures both the changes of the Co-O bond length and Co-O-Co bond angle in the material due to the presence of oxygen vacancies. Finally, we predict the oxygen vacancy concentration of experimental samples and show how the resistivity of the oxide material may be tuned as a function of the defect concentration present in the system.
ISSN:0897-4756
1520-5002