8 research outputs found

    Toward High Performance All‐Solid‐State Lithium Batteries with High‐Voltage Cathode Materials: Design Strategies for Solid Electrolytes, Cathode Interfaces, and Composite Electrodes

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    Artificial interphase engineering of electrode materials to improve the overall performance of lithium-ion batteries

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    Glasses and glass-ceramics for solid-state battery applications- Chapter 50

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    International audienceThis chapter reviews investigations carried out in the last decades to synthesize and characterize ion conducting glasses and glass-ceramics and further use them as solid electrolytes in all-solid-state batteries.First, the focus is put on materials, either LiC, NaC or AgC conducting ones, with the most striking points being the discovery of ion conductingchalcogenide glasses in the 1980s, the elaboration of fast ion conducting glass-ceramics with the introduction of mechanical alloying techniques in the 1990s, and more recently the renewed interest in NaC conducting glasses and glass-ceramics.The second part of the chapter focuses on the development of all-solid-state batteries, Li-ion and Li=S batteries and to a lesser extent NaC and AgC-ion batteries. It is shown that the performance of the batteries relies on the development of optimized composite electrodes comprising theelectrolyte, an active material and a conductive additive. The review sheds light on the key parameters that have to be considered, including the choice of compositions of active material and conductive additive, coating of electrode by the electrolyte, coating of the electrolyte, ratio of thecomponents, homogenization of the mixture and compaction of the powders

    Recent Advancements in High-Performance Solid Electrolytes for Li-ion Batteries: Towards a Solid Future

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