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Saint Gobain

Last updated February 23, 2026
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Metal halide solid electrolyte: Saint GobainRecent Research Landscape

Low ionic conductivity and interfacial instability in solid-state batteries increase internal resistance and limit cycle life. These innovations engineer specific halide-based crystal structures to optimize ion transport and chemical stability against lithium anodes.

What technical problems is Saint Gobain addressing in Metal halide solid electrolyte?

Insufficient ionic transport rates

(14)evidences

Low ionic conductivity in solid-state materials limits power density and charging speeds. Overcoming this bottleneck is essential for the practical viability of all-solid-state batteries.

Atmospheric moisture reactivity

(1)evidences

Chemical and electrochemical decomposition at the contact point between metal halide electrolytes and high-voltage electrodes. Preventing this degradation ensures long-term cycle life and high energy density.

Insufficient bulk ionic conductivity

(1)evidences

Chemical and electrochemical decomposition at the contact point between metal halide electrolytes and high-voltage electrodes. Preventing this degradation ensures long-term cycle life and high energy density in solid-state batteries.