Correlated electron physics near a site-selective pressure-induced Mott transition in α-LiFe5O8

Samar Layek*, Eran Greenberg, Davide Levy, Vitali Prakapenka, Siddharth S. Saxena*, Gregory Kh Rozenberg*

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The Mott insulator-to-metal transition (IMT) driven by electron correlations has been among the main research topics in materials science over the past decades. The complex interplay between electronic and lattice degrees of freedom leads to various transition scenarios. Of particular interest may be the case of a transition involving the formation of complex phases comprising regions that differ significantly in their physical properties within the same material. Here, we present the results that advance the understanding of the IMT phenomenon, offering the documentation of a pure site-selective mechanism that is not complicated by any structural and spin transformation. Combining XRD, resistivity, Mössbauer and Raman spectroscopy measurements, we provide evidence for a pure pressure-induced Mott transition in α-LiFe5O8, characterized by site-selective delocalization of electrons, leading to the formation, above ~65 GPa, of a site-selective Mott phase consisting of metallic and insulating sublattices. We note that the electron delocalization in the partially disordered octahedral sublattice cannot be understood purely in terms of a Mott transition, the Anderson-Mott transition picture seems more adequate.

    Original languageEnglish
    Article number155
    JournalCommunications Materials
    Volume5
    Issue number1
    DOIs
    StatePublished - Dec 2024

    Funding

    FundersFunder number
    University of Chicago
    U.S. Department of Energy
    Argonne National Laboratory
    Department of Science Innovation and Technology, UK
    Higher Education Ministry of Israel
    Office of ScienceDE-AC02-06CH11357, UPES/R&D-SOE/20062022/02
    Israel Science Foundation1552/18, 1748/20, 1189/14
    National Science Foundation - Earth SciencesEAR - 1634415
    SEED-INFRAUPES/R&D-SEED-INFRA/24082023/04, UPES/R&D-SoAE/08042024/20
    University of Petroleum and Energy StudiesG117669

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