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Passivation of the Cathode–Electrolyte Interface for 5 V-Class All-Solid-State Batteries

Gaozhan Liu, Yong Lü, Hongli Wan, Wei Weng, Liangting Cai, Zhe Li, Xiaochao Que, Haijing Liu, Xiayin Yao

2020ACS Applied Materials & Interfaces62 citationsDOI

Abstract

An all-solid-state battery is a potentially superior alternative to a state-of-the-art lithium-ion battery owing to its merits in abuse tolerance, packaging, energy density, and operable temperature ranges. In this work, a 5 V-class spinel LiNi0.5Mn1.5O4 (LNMO) cathode is targeted to combine with a high-ionic-conductivity Li6PS5Cl (LPSCl) solid electrolyte for developing high-performance all-solid-state batteries. Aiming to passivate and stabilize the LNMO–LPSCl interface and suppress the unfavorable side reactions such as the continuous chemical/electrochemical decomposition of the solid electrolyte, oxide materials including LiNbO3, Li3PO4, and Li4Ti5O12 are rationally applied to decorate the surface of pristine LNMO particles with various amounts through a wet-chemistry approach. Electrochemical characterization demonstrates that the composite cathode consisting of 8 wt % LiNbO3-coated LNMO and LPSCl in a weight ratio of 70:30 delivers the best electrochemical performance with an initial discharge capacity of 115 mA h g–1 and a reversible discharge capacity of 80 mA h g–1 at the 20th cycle, suggesting that interfacial passivation is an effective strategy to ensure the operation of 5 V-class all-solid-state batteries.

Topics & Concepts

PassivationMaterials scienceElectrolyteBattery (electricity)SpinelElectrochemistryCathodeChemical engineeringOxideLithium (medication)Ionic conductivityNanotechnologyElectrodePhysical chemistryChemistryLayer (electronics)MetallurgyThermodynamicsPower (physics)EndocrinologyPhysicsEngineeringMedicineAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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