Heterostructuring as Gateway to Electron Doping of Nickelate Superconductors

Abstract

Despite enormous expenditures in the research field, the electron-doped side of nickelate superconductors remains uncharted territory. Substituting the trivalent rare-earth cations by a tetravalent one hitherto failed. Here, we demonstrate by first-principles calculations a disorder-free route to electron dope Ruddlesden-Popper nickelates. When intercalating wide-band-gap insulating layers such as LaXO3 (X=Al, Ga, Sc) into La2NiO4, the extra (LaO)+ layers act as electron donors, releasing carriers into the Ni-3d orbitals. This electron doping puts La2NiO4:La2AlO4 naturally in the optimal region for dx2-y2-wave superconductivity with Tc exceeding 50 K. The same concept also allows us to electron dope La3Ni2O7, the superconductor in the limelight.

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