Benefit of high-pressure structure on sodium transport properties: Example with NaFeF3 post-perovskite

Kevin Lemoine; Agnieszka Wizner; Sandy Auguste; Jean-Marc Grenèche; Hiroshi Kojitani; Masaki Akaogi; Yoshiyuki Inaguma

Open Ceramics (Jun 2021)

Benefit of high-pressure structure on sodium transport properties: Example with NaFeF3 post-perovskite

Kevin Lemoine,
Agnieszka Wizner,
Sandy Auguste,
Jean-Marc Grenèche,
Hiroshi Kojitani,
Masaki Akaogi,
Yoshiyuki Inaguma

Affiliations

Kevin Lemoine: Department of Chemistry, Faculty of Science, Gakushuin University, 1-5-1 Mejiro, Toshima-ku, Tokyo, 171-8588, Japan; Corresponding author.
Agnieszka Wizner: Center for Cooperative Research on Alternative Energies (CIC energiGUNE), Basque Research and Technology Alliance (BRTA), Alava Technology Park, Albert Einstein 48, 01510, Vitoria-Gasteiz, Spain; University of the Basque Country (UPV/EHU), Barrio Sarriena, s/n, 48940, Leioa, Spain
Sandy Auguste: Institut des Molécules et des Matériaux du Mans, UMR CNRS 6283, Le Mans Université, Avenue Olivier Messiaen, 72085, Le Mans Cedex 9, France
Jean-Marc Grenèche: Institut des Molécules et des Matériaux du Mans, UMR CNRS 6283, Le Mans Université, Avenue Olivier Messiaen, 72085, Le Mans Cedex 9, France
Hiroshi Kojitani: Department of Chemistry, Faculty of Science, Gakushuin University, 1-5-1 Mejiro, Toshima-ku, Tokyo, 171-8588, Japan
Masaki Akaogi: Department of Chemistry, Faculty of Science, Gakushuin University, 1-5-1 Mejiro, Toshima-ku, Tokyo, 171-8588, Japan
Yoshiyuki Inaguma: Department of Chemistry, Faculty of Science, Gakushuin University, 1-5-1 Mejiro, Toshima-ku, Tokyo, 171-8588, Japan

Journal volume & issue: Vol. 6
p. 100123

Abstract

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In the search of promising Na-ion cathode materials, high-pressure synthesis method was applied to obtain sodium iron fluoride NaFeF3 with the post-perovskite lamellar structure. A two-step synthesis was performed: first, the Pnma orthorhombic perovskite structure NaFeF3 form (or Pv-NaFeF3, GdFeO3 type) was synthesized at 1270 K and 7.7 GPa, then the Cmcm orthorhombic post-perovskite structure (or pPv-NaFeF3, CaIrO3 type) was obtained using a second step at 700 K and 15 GPa. The post-perovskite form was stabilized under ambient conditions with a low amount of remaining perovskite phase (5 mol%). The Mössbauer analysis of pPv-NaFeF3 was firstly investigated with a paramagnetic structure obtained at 300 and 77 K, opposed to Pv-NaFeF3 magnetism reflecting the different [FeF6] polyhedra arrangements. Finally, the sodium migration within the framework of both structures was evaluated with the use of Bond Valence Energy Landscape (BVEL) calculations, resulting with an enhanced Na+ mobility within the pPv-NaFeF3 structure.

Published in Open Ceramics

ISSN: 2666-5395 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Clay industries. Ceramics. Glass
Website: https://www.journals.elsevier.com/open-ceramics

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