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Nature of the metal-insulator transition in few-unit-cell-thick LaNiO3 films.


ABSTRACT: The nature of the metal-insulator transition in thin films and superlattices of LaNiO3 only a few unit cells in thickness remains elusive despite tremendous effort. Quantum confinement and epitaxial strain have been evoked as the mechanisms, although other factors such as growth-induced disorder, cation non-stoichiometry, oxygen vacancies, and substrate-film interface quality may also affect the observable properties of ultrathin films. Here we report results obtained for near-ideal LaNiO3 films with different thicknesses and terminations grown by atomic layer-by-layer laser molecular beam epitaxy on LaAlO3 substrates. We find that the room-temperature metallic behavior persists until the film thickness is reduced to an unprecedentedly small 1.5 unit cells (NiO2 termination). Electronic structure measurements using X-ray absorption spectroscopy and first-principles calculation suggest that oxygen vacancies existing in the films also contribute to the metal-insulator transition.

SUBMITTER: Golalikhani M 

PROVIDER: S-EPMC5992201 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Nature of the metal-insulator transition in few-unit-cell-thick LaNiO<sub>3</sub> films.

Golalikhani M M   Lei Q Q   Chandrasena R U RU   Kasaei L L   Park H H   Bai J J   Orgiani P P   Ciston J J   Sterbinsky G E GE   Arena D A DA   Shafer P P   Arenholz E E   Davidson B A BA   Millis A J AJ   Gray A X AX   Xi X X XX  

Nature communications 20180607 1


The nature of the metal-insulator transition in thin films and superlattices of LaNiO<sub>3</sub> only a few unit cells in thickness remains elusive despite tremendous effort. Quantum confinement and epitaxial strain have been evoked as the mechanisms, although other factors such as growth-induced disorder, cation non-stoichiometry, oxygen vacancies, and substrate-film interface quality may also affect the observable properties of ultrathin films. Here we report results obtained for near-ideal L  ...[more]

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