Dispersed Solid Conductors: Fast Interfacial Li-Ion Dynamics in Nanostructured LiF and LiF:γ-Al2O3 Composites
2019
Lithium fluoride serves as a model substance to study Li and F hopping processes in a material solely composed of mobile ions with an opposite charge. In its microcrystalline form, it is known to be a very poor ionic conductor. Here, we tried to boost ion dynamics in LiF by taking advantage of size effects and the introduction of structural disorder. Compared to micro-LiF, we observed an increase of the ion conductivity by 2 orders of magnitude for nanocrystalline LiF prepared by high-energy ball milling. A further boost might be achieved in nanocrystalline two-phase systems consisting of LiF and an insulator, such as amphoteric γ-Al2O3. In such dispersed ionic conductors, percolating conductor/insulator pathways are anticipated enabling the ions to move quickly over long distances. Indeed, for nano-LiF:Al2O3, another drastic increase of ionic conductivity by 3 orders of magnitude (393 K) is achieved by interface engineering. The activation energy characterizing long-range ion transport is reduced from 0....
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