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Structural transitions, octahedral rotations, and electronic properties of A3Ni2O7 rare-earth nickelates under high pressure

Benjamin Geisler, J. J. Hamlin, G. R. Stewart, Richard G. Hennig, P. J. Hirschfeld

2024npj Quantum Materials74 citationsDOIOpen Access PDF

Abstract

Abstract Motivated by the recent observation of superconductivity with T c ~ 80 K in pressurized La 3 Ni 2 O 7 1 , we explore the structural and electronic properties of A 3 Ni 2 O 7 bilayer nickelates ( A = La-Lu, Y, Sc) as a function of pressure (0–150 GPa) from first principles including a Coulomb repulsion term. At ~ 20 GPa, we observe an orthorhombic-to-tetragonal transition in La 3 Ni 2 O 7 at variance with x-ray diffraction data, which points to so-far unresolved complexities at the onset of superconductivity, e.g., charge doping by variations in the oxygen stoichiometry. We compile a structural phase diagram that establishes chemical and external pressure as distinct and counteracting control parameters. We find unexpected correlations between T c and the in-plane Ni-O-Ni bond angles for La 3 Ni 2 O 7 . Moreover, two structural phases with significant c + octahedral rotations and in-plane bond disproportionations are uncovered for A = Nd-Lu, Y, Sc that exhibit a pressure-driven electronic reconstruction in the Ni e g manifold. By disentangling the involvement of basal versus apical oxygen states at the Fermi surface, we identify Tb 3 Ni 2 O 7 as an interesting candidate for superconductivity at ambient pressure. These results suggest a profound tunability of the structural and electronic phases in this novel materials class and are key for a fundamental understanding of the superconductivity mechanism.

Topics & Concepts

SuperconductivityCondensed matter physicsTetragonal crystal systemMaterials scienceOrthorhombic crystal systemAmbient pressureCrystallographyPhase diagramElectronic structureOctahedronPhysicsChemistryPhase (matter)Crystal structureThermodynamicsQuantum mechanicsMagnetic and transport properties of perovskites and related materialsAdvanced Condensed Matter PhysicsIron-based superconductors research
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