Materials Research Letters (Apr 2022)
Freestanding La0.7Sr0.3MnO3:NiO vertically aligned nanocomposite thin films for flexible perpendicular interfacial exchange coupling
Abstract
High-quality epitaxial growth of nanocomposite thin-films typically requires a high-temperature process on single-crystal oxide substrates, which limits their potential for flexible device integration. Here, we adopted a water-soluble Sr3Al2O6 (SAO) sacrificial buffer layer to achieve a La0.7Sr0.3MnO3 (LSMO):NiO freestanding nanocomposite thin film. Freestanding LSMO:NiO film has been transferred onto a flexible polymer substrate, and exhibits an exchange bias effect, and no film quality degradation has been observed after an extensive bending process. This study opens a route to fabricate high-quality freestanding nanocomposite thin films and lays a foundation towards the applications of these multifunctional nanocomposite thin films in flexible spintronic and electronic devices.IMPACT STATEMENTFreestanding nanocomposite thin film has been obtained using a water-soluble sacrificial buffer layer method, and could be transferred to any other substrates, such as flexible substrates.
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