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Regulating Electronic Conductivity at Cathode Interface for Low‐Temperature Halide‐Based All‐Solid‐State Batteries

Sixu Deng, Ming Jiang, Ning Chen, Weihan Li, Matthew Zheng, Weifeng Chen, Ruying Li, Huan Huang, Jiantao Wang, Chandra Veer Singh, Xueliang Sun

2022Advanced Functional Materials48 citationsDOI

Abstract

Abstract Halide solid‐state batteries (SSBs) show unparalleled application potential because of their outstanding advantages, such as high ionic conductivity and good compatibility with cathodes. However, operating halide SSBs under freezing temperatures faces big challenges, and the underlying degradation mechanisms are unclear. Herein, the impact of electronic conductivity in low‐temperature halide SSBs is investigated by designing different additives in the composite cathode. It is shown that the electrochemical stability of a halide electrolyte (Li 3 InCl 6 ) with additives is significantly affected by the degree of electronic conductivity as well as the ambient operational temperature. When the ambient temperatures are below freezing point, the moderate electronic conductivity in the composite cathode is beneficial toward improving the charge transfer kinetics without inducing the decomposition of Li 3 InCl 6 . The electrode materials (LiCoO 2 cathode and Li 3 InCl 6 electrolytes) show excellent structural and interfacial stability during electrochemical reactions, resulting in a competitive performance at low temperatures. Stable long‐term cycling performance with a capacity retention of 89.2% after 300 cycles is achieved along with a C‐rate capacity of 77.6 mAh g –1 (0.6 C) at −10 °C. This in‐depth study investigates the role of electronic conductivity, which opens the door to future research on low‐temperature SSBs.

Topics & Concepts

Materials scienceCathodeElectrolyteConductivityHalideElectrochemistryComposite numberIonic conductivityChemical engineeringElectrodeInorganic chemistryComposite materialPhysical chemistryChemistryEngineeringAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsThermal Expansion and Ionic Conductivity
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