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Moisture-Stable Chalcogenide Solid Electrolytes in Li<sub>2</sub>BMQ<sub>4</sub> (B = Ca, Sr, and Ba; M = Si, Ge, and Sn; Q = O, S, and Se) Systems

Huican Mao, Xiang Zhu, Guangmao Li, Jie Pang, Junfeng Hao, Liqi Wang, Hailong Yu, Youguo Shi, Fan Wu, Shilie Pan, Ruijuan Xiao, Hong Li, Liquan Chen

2024ACS Energy Letters20 citationsDOI

Abstract

Identifying new solid-state electrolytes is key for advancing all-solid-state batteries. Combining high-throughput calculations and experiments, we have identified a family of moisture-stable chalcogenide ionic conductors in Li 2 BMQ 4 (2114, B = Ca, Sr, and Ba; M = Si, Ge, and Sn; Q = O, S, and Se) systems. The calculations demonstrate the 2114 systems have low Li + migration energies (0.16–0.56 eV) and considerable bandgaps (about 2–3.5 eV). The experimentally synthesized Li 2 BaSnS 4 and Li 2 SrSiS 4 show typical features of solid ionic conductors, with a room-temperature Li + conductivity close to 5 × 10 –4 mS/cm. Furthermore, for Cl-doped compounds, the calculated ionic conductivity is enhanced by approximately 3 orders of magnitude, reaching a maximum of 0.72 mS/cm, despite synthesis hurdles from impurities. These findings offer valuable insights for the further exploration of potential chalcogenide solid electrolyte materials with robust moisture stability and enhanced ionic conductivity for practical applications in lithium-ion batteries.

Topics & Concepts

ChalcogenideMoistureSolid solutionMaterials scienceElectrolyteFast ion conductorGermaniumMineralogyInorganic chemistryChemistryCrystallographyPhysical chemistryMetallurgySiliconElectrodeComposite materialAdvanced Battery Materials and TechnologiesThermal Expansion and Ionic ConductivitySolid-state spectroscopy and crystallography
Moisture-Stable Chalcogenide Solid Electrolytes in Li<sub>2</sub>BMQ<sub>4</sub> (B = Ca, Sr, and Ba; M = Si, Ge, and Sn; Q = O, S, and Se) Systems | Litcius