Cation Distribution and Anion Transport in the La3Ga5-xGe1+xO14+0.5x Langasite Structure

Corti, Lucia, Hung, Ivan, Venkatesh, Amrit, Gan, Zhehong, Claridge, John, Rosseinsky, Matthew and Blanc, Frederic (2024) Cation Distribution and Anion Transport in the La3Ga5-xGe1+xO14+0.5x Langasite Structure. [Data Collection]

Description

Exploration of compositional disorder using conventional diffraction-based techniques is challenging for systems containing isoelectronic ions possessing similar coherent neutron scattering lengths. Here, we show that a multinuclear solid-state Nuclear Magnetic Resonance (NMR) approach provides compelling insight into the Ga3+/Ge4+ cation distribution and oxygen anion transport in a family of solid electrolytes with langasite structure and La3Ga5-xGe1+xO14+0.5x composition. Ultrahigh field 71Ga Magic Angle Spinning (MAS) NMR experiments acquired at 35.2 T offer striking resolution enhancement, thereby enabling clear detection of Ga sites in different coordination environments. Three-connected GaO4, four-connected GaO4 and GaO6 polyhedra are probed for the parent La3Ga5GeO14 structure, while one additional spectral feature corresponding to the key (Ga,Ge)2O8 structural unit which forms to accommodate the interstitial oxide ions is detected for the Ge4+-doped La3Ga3.5Ge2.5O14.75 phase. The complex spectral line shapes observed in the MAS NMR spectra are reproduced very accurately by the NMR parameters computed for a symmetry-adapted configurational ensemble that comprehensively models site disorder. This approach further reveals a Ga3+/Ge4+ distribution across all Ga/Ge sites that is controlled by a kinetically-governed cation diffusion process. Variable temperature 17O MAS NMR experiments up to 700 °C importantly indicate that the presence of interstitial oxide ions triggers chemical exchange between all oxygen sites, thereby enabling atomic-scale understanding of the anion diffusion mechanism underpinning the transport properties of these materials.

Keywords:	solid-state NMR spectroscopy, oxide ion conductors, langasite
Divisions:	Faculty of Science and Engineering > School of Physical Sciences > Chemistry
Depositing User:	Lucia Corti
Date Deposited:	01 May 2024 09:16
Last Modified:	01 May 2024 09:16
DOI:	10.17638/datacat.liverpool.ac.uk/2658
URI:	https://datacat.liverpool.ac.uk/id/eprint/2658
Additional details Additional details Creators: Corti, Lucia Hung, Ivan Venkatesh, Amrit Gan, Zhehong Claridge, John Rosseinsky, Matthew Blanc, Frederic Research funder: Grant Number Name of the Funder DMR-2128556 National Science Foundation Cooperative Agreement P41GM122698 National Institute of General Medical Sciences of the National Institutes of Health RM1GM148766 National Institute of General Medical Sciences of the National Institutes of Health EP/T015063/1 EPSRC and BBSRC EP/R029946/1 EPSRC EP/K031511/1 EPSRC R21-2293948533 Royal Society of Chemistry Research Fund Grant Date: 30 April 2024 Resource language: English Publisher: University of Liverpool Contact email address: frederic.blanc@liverpool.ac.uk Last Modified: 01 May 2024 09:16

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