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Uniform Densification of Garnet Electrolyte for Solid‐State Lithium Batteries

Zhihao Guo, Qihou Li, Xinhai Li, Zhixing Wang, Huajun Guo, Wenjie Peng, Guangchao Li, Guochun Yan, Jiexi Wang

2023Small Methods13 citationsDOIOpen Access PDF

Abstract

Abstract Highly uniformly dense garnet type solid‐state electrolyte plays a significant role in determining the performance of solid‐state lithium batteries. Herein, a rational powder‐covering sintering strategy is proposed and demonstrated, in which narrow‐particle‐size‐distribution fine powder and uniform sintering temperature distribution are considered as very significant factors. It is suggested that powder materials with wider particle size distribution dramatically decrease the densified level of electrolytes. Slow temperature elevating rate and the overhead structure of bearing table are found to be beneficial to uniform densification. Moreover, the uniform densification process of sintering solid‐state electrolyte is studied both microscopically and macroscopically, which can be divided into three phases according to the grain growing evolution and linear shrinkage patterns. The ionic conductivity of the as‐prepared Li 6.4 La 3 Zr 1.4 Ta 0.6 O 12 (LLZTO) garnet electrolyte is determined to be 0.73 mS cm −1 at 303 K with an activation energy of 0.37 eV. The Li/LLZTO/Li symmetric cell exhibits a small interfacial impedance of 8.49 Ω cm 2 and a high apparent critical current density of 2.15 mA cm −2 and also can be cycled for 1000 h continuously without short‐circuit. Such results indicate the good feasibility of as‐proposed sintering strategy to prepare uniformly dense garnet type solid‐state electrolytes for solid‐state lithium batteries.

Topics & Concepts

SinteringElectrolyteMaterials scienceLithium (medication)Ionic conductivityFast ion conductorGrain sizeConductivityParticle sizeChemical engineeringComposite materialMineralogyElectrodeChemistryEndocrinologyMedicineEngineeringPhysical chemistryAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsThermal Expansion and Ionic Conductivity
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