Solid Electrolyte with High Ionic Conductivity & Air Processability - Dr. Guruprakash Karkera

Описание к видео Solid Electrolyte with High Ionic Conductivity & Air Processability - Dr. Guruprakash Karkera

Paper: https://doi.org/10.1002/aenm.202300982
Abstract: In this work, a structurally revivable, chloride-ion conducting solid electrolyte (SE), CsSn0.9In0.067Cl3, with a high ionic conductivity of 3.45 × 10−4 S cm−1 at 25 °C is investigated. The impedance spectroscopy, density functional theory, solid-state 35Cl NMR, and electron paramagnetic resonance studies collectively reveal that the high Cl− ionic mobility originates in the flexibility of the structural building blocks, Sn/InCl6 octahedra. The vacancy-dominated Cl− ion diffusion encompasses co-ordinated Sn/In(Cl) site displacements that depend on the exact stoichiometry, and are accompanied by changes in the local magnetic moments. Owing to these promising properties, the suitability of the CsSn0.9In0.067Cl3, as an electrolyte is demonstrated by designing all-solid-state batteries, with different anodes and cathodes. The comparative investigation of interphases with Li, Li–In, Mg, and Ca anodes reveals different levels of reactivity and interphase formation. The CsSn0.9In0.067Cl3 demonstrates an excellent humidity tolerance (up to 50% relative humidity) in ambient air, maintaining high structural integrity without compromises in ionic conductivity, which stands in contrast to commercial halide-based lithium conductors. The discovery of a halide perovskite conductor, with air processability and structure revival ability paves the way for the development of advanced air processable SEs, for next-generation batteries.

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