Electronic structure of higher-order layered palladates: Lan+1PdnO2n+2 (n = 4-7)
Abstract
The square-planar layered nickelates Rn+1NinO2n+2 (R= Nd, n=4-7) have been recently shown to be superconducting without the need for chemical doping or pressure. Here, we examine the electronic structure of the analog higher-order square-planar palladates -- that have not yet been synthesized -- via ab initio calculations. These layered palladates exhibit larger bandwidths, an increased p-d hybridization, and less interference from R-d bands at the Fermi level. These characteristics make them closer cuprate analogs and promising candidates to pursue in the context of unconventional superconductivity.
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