Unraveling P‐Type and N‐Type Interfaces in Superconducting Infinite‐Layer Nickelate Thin Films - Unité mixte de physique CNRS/Thales
Article Dans Une Revue Advanced Functional Materials Année : 2024

Unraveling P‐Type and N‐Type Interfaces in Superconducting Infinite‐Layer Nickelate Thin Films

Résumé

After decades of research, superconductivity is finally found in nickel-based analogs of superconducting cuprates, with infinite-layer (IL) structure. These results are so far restricted to thin films in the case of IL-nickelates. Therefore, the nature of the interface with the substrate, and how it couples with the thin film properties is still an open question. Here, using scanning transmission electron microscopy (STEM)-electron energy loss spectroscopy (EELS), a novel p-type interface defined by SrO termination with the SrTiO 3 substrate is observed in superconducting (SC) IL-praseodymium nickelate samples. Its interfacial charge and polarity are compared with the previously reported n-type interface characterized by TiO 2 termination. In combination with ab-initio calculations, it is found that the influence of the interface on the electronic structure is local and does not extend beyond 2-3 unit cells into the thin film. This decouples the direct influence of the interface in driving the superconductivity, and indicates that the IL-nickelate thin films do not have a universal interface model. Insights into the spatial hole-distribution in SC samples, provided by monochromated EELS and total reflection-hard X-ray photoemission spectroscopy, suggest that this particular distribution might be directly influencing superconductivity.

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hal-04778197 , version 1 (12-11-2024)

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Aravind Raji, Araceli Gutiérrez‐llorente, Dongxin Zhang, Xiaoyan Li, Manuel Bibes, et al.. Unraveling P‐Type and N‐Type Interfaces in Superconducting Infinite‐Layer Nickelate Thin Films. Advanced Functional Materials, 2024, pp.2409930. ⟨10.1002/adfm.202409930⟩. ⟨hal-04778197⟩
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