Ionic Conduction and Electric Modulus in Li2S–CaS and CaX2 (X = F, Cl, Br, and I) Nanocomposites

GAMO Hirotada, PHUC Nguyen Huu Huy, IKARI Mika, HIKIMA Kazuhiro, MUTO Hiroyuki, MATSUDA Atsunori

doi:10.5796/electrochemistry.22-00047

Technology for ion conduction in Li₂S nanostructure has attracted considerable interest for achieving the intrinsic performance of Li-S batteries and for obtaining highly conductive materials. Herein, a quantitative relationship between ion transport and relaxation behavior in the Li₂S–CaS nanocomposite is revealed based on complex conductivity and electric modulus formalism. Li₂S–CaS nanocomposites prepared by high-energy ball milling show higher conductivity and activation energy for conduction than pure Li₂S. The activation energy for relaxation is lower than the activation energy for conduction in 80Li₂S·20CaS (mol%). The long-range ion transport involves high activation energy compared with the hopping of carriers at localized states in 80Li₂S·20CaS. Additionally, the dual doping of Ca and halogen reduces the activation energy for conduction and improves the conductivity of Li₂S. The findings show important insight for understanding ion transport in nanocomposites containing a Li₂S nanostructure.

Ionic Conduction and Electric Modulus in Li<sub>2</sub>S–CaS and Ca<i>X</i><sub>2</sub> (<i>X</i> = F, Cl, Br, and I) Nanocomposites

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