2023-Sustainable Industrial Processing Summit
SIPS2023 Volume 8. Poeppelmeier Intl. Symp. / Solid State Chemistry

Editors:F. Kongoli, M. Delferro, P. S. Halasyamani, M. A. Alario-Franco, F. Marquis, A. Tressaud, H. Kageyama
Publisher:Flogen Star OUTREACH
Publication Year:2023
Pages:144 pages
ISBN:978-1-989820-86-5 (CD)
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    STRAIN ENGINEERING IN MIXED-ANION PEROVSKITES

    Hiroshi Kageyama1;
    1KYOTO UNIVERSITY, Kyoto, Japan;
    Type of Paper: Regular
    Id Paper: 190
    Topic: 52

    Abstract:

    Perovskite oxides ABO3 continue to be a major subject in materials science because of its chemical and structural diversity1. Of particular interest is the interplay between A and B cations with finite d/f electrons, which, for example, causes inter-site charge transfer (ICT), leading to novel phenomane such as negative thermal expansion and metal-to-insulator transitions. The ICT properties are controlled by cationic substitution, but the mechanism is complicated by three-dimensional (3D) structures. Mixed-anion compounds began to draw attention as game-changing inorganic materials. Since, compared with conventional inorganic compounds such as oxides, mixed-anion compounds may exhibit unique coordination and resultant extended structures, from which fundamentally different chemical and physical property may emerge. In my talk, a new oxyhydride EuVO2H, prepared via anion-exchange reactions of EuVO3perovskite oxide, will be presented [1]. EuVO2H with alternating layers of EuH and VO2 exhibit ICT between the heteroanion layers. While bulk EuVO2H is a ferromagnetic insulator with TC = 10 K, application of external pressure or biaxial strain from a substrate to a EuVO2H film causes ICT to occur from the EuIIH layer to the VIIIO2 layer. The strained film exhibits a 4-fold increase in TC and, despite the absence of orbital angular momentum, Eu2+ exhibits giant magnetic anisotropy with its easy axis perpendicular to the film, which is favorable for devices such as high-density memory. The present results provide new possibilities for the acquisition of novel functions by alternating layered structures of heteroanions. If time allows, other examples of strain engineering of perovskite structures and properties including SrV(O,N)3-x [2]will be presented.

    Keywords:

    Advances In The Synthesis Routes; Design Of Materials For Sustainable Energy Production; mixed anion; perovskite; strain

    References:

    [1] Nambe et al., submitted.
    [2] Yamamoto et al., Nat. Commun 11, 5923 (2020)

    Cite this article as:

    Kageyama H. (2023). STRAIN ENGINEERING IN MIXED-ANION PEROVSKITES. In F. Kongoli, M. Delferro, P. S. Halasyamani, M. A. Alario-Franco, F. Marquis, A. Tressaud, H. Kageyama (Eds.), Sustainable Industrial Processing Summit Volume 8 Poeppelmeier Intl. Symp. / Solid State Chemistry (pp. 87-88). Montreal, Canada: FLOGEN Star Outreach