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Chemical design of electronic and magnetic energy scales of tetravalent praseodymium materials

Arun Ramanathan, Jensen Kaplan, Dumitru‐Claudiu Sergentu, Jacob A. Branson, Mykhaylo Ozerov, А. И. Колесников, Stefan G. Minasian, Jochen Autschbach, J. W. Freeland, Zhigang Jiang, Martin Mourigal, Henry S. La Pierre

2023Nature Communications40 citationsDOIOpen Access PDF

Abstract

Abstract Lanthanides in the trivalent oxidation state are typically described using an ionic picture that leads to localized magnetic moments. The hierarchical energy scales associated with trivalent lanthanides produce desirable properties for e.g., molecular magnetism, quantum materials, and quantum transduction. Here, we show that this traditional ionic paradigm breaks down for praseodymium in the tetravalent oxidation state. Synthetic, spectroscopic, and theoretical tools deployed on several solid-state Pr 4+ -oxides uncover the unusual participation of 4 f orbitals in bonding and the anomalous hybridization of the 4 f 1 configuration with ligand valence electrons, analogous to transition metals. The competition between crystal-field and spin-orbit-coupling interactions fundamentally transforms the spin-orbital magnetism of Pr 4+ , which departs from the J eff = 1/2 limit and resembles that of high-valent actinides. Our results show that Pr 4+ ions are in a class on their own, where the hierarchy of single-ion energy scales can be tailored to explore new correlated phenomena in quantum materials.

Topics & Concepts

Ionic bondingPraseodymiumMagnetismLanthanideChemical physicsValence (chemistry)Magnetic momentIonElectronic structureMaterials scienceChemistryCondensed matter physicsInorganic chemistryComputational chemistryPhysicsOrganic chemistryAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materialsCatalysis and Oxidation Reactions
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