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Li <sub>4.3</sub> AlS <sub>3.3</sub> Cl <sub>0.7</sub> : A Sulfide–Chloride Lithium Ion Conductor with Highly Disordered Structure and Increased Conductivity

Jacinthe Gamon, Matthew S. Dyer, Benjamin B. Duff, Andrij Vasylenko, Luke M. Daniels, Marco Zanella, Michael W. Gaultois, Frédéric Blanc, John B. Claridge, Matthew J. Rosseinsky

2021Chemistry of Materials21 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Mixed anion materials and anion doping are very promising strategies to improve solid-state electrolyte properties by enabling an optimized balance between good electrochemical stability and high ionic conductivity. In this work, we present the discovery of a novel lithium aluminum sulfide–chloride phase, obtained by substitution of chloride for sulfur in Li 3 AlS 3 and Li 5 AlS 4 materials. The structure is strongly affected by the presence of chloride anions on the sulfur site, as the substitution was shown to be directly responsible for the stabilization of a higher symmetry phase presenting a large degree of cationic site disorder, as well as disordered octahedral lithium vacancies. The effect of disorder on the lithium conductivity properties was assessed by a combined experimental–theoretical approach. In particular, the conductivity is increased by a factor 10 3 compared to the pure sulfide phase. Although it remains moderate (10 –6 S·cm –1 ), ab initio molecular dynamics and maximum entropy (applied to neutron diffraction data) methods show that disorder leads to a 3D diffusion pathway, where Li atoms move thanks to a concerted mechanism. An understanding of the structure–property relationships is developed to determine the limiting factor governing lithium ion conductivity. This analysis, added to the strong step forward obtained in the determination of the dimensionality of diffusion, paves the way for accessing even higher conductivity in materials comprising an hcp anion arrangement.

Topics & Concepts

Lithium (medication)ConductivityIonSulfideChlorideConductorInorganic chemistryMaterials scienceElectrical resistivity and conductivityIonic conductivityChemistryPhysical chemistryPhysicsMetallurgyElectrolyteElectrodeMedicineQuantum mechanicsEndocrinologyOrganic chemistryComposite materialInorganic Chemistry and MaterialsAdvanced Battery Materials and TechnologiesCrystal Structures and Properties