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Electrochemically active materials as critical components for next-generation solid-state electrolytes

Yubo Xu, Yi Peng, Xiaosong Xiong, Qi Zhou, Bohao Peng, Tao Wang, Svetlana Eliseeva, Zhi Zhu, Yuan Ma, Rudolf Holze, Yuping Wu

2025Energy Z20 citationsDOIOpen Access PDF

Abstract

In the traditional view, low reactivity, low electronic conductivity, and high ionic conductivity are necessary for designing advanced solid-state electrolytes. However, this concept limits the range of materials selection and the optimization direction. Recent studies have shown the great potential of electrochemically active materials with mixed conductivity in solid-state electrolytes, exhibiting great ion transport capacity and interface performance. Therefore, it is urgent to re-examine the roles of reactivity and relationships between ionic and electronic conductivity in electrolytes. This perspective aims to clarify the ion-electron transport behavior and decoupling strategies of mixed conductive materials, discuss their contributions to ion transport and interface optimization in solid-state electrolytes, and finally propose innovative directions for designing next-generation solid-state lithium metal batteries.

Topics & Concepts

Ionic conductivityMaterials scienceConductivityDecoupling (probability)ElectrolyteElectrical conductorFast ion conductorIonic bondingNanotechnologyInterface (matter)Lithium (medication)IonLithium metalElectrochemistryIon transporterMetalNanoarchitectures for lithium-ion batteriesConductive polymerReactivity (psychology)Inorganic chemistryElectrical resistivity and conductivityElectrodeElectronicsAdvanced Battery Materials and TechnologiesThermal Expansion and Ionic ConductivityAdvancements in Battery Materials
Electrochemically active materials as critical components for next-generation solid-state electrolytes | Litcius