An effective solid-electrolyte interphase for stable solid-state batteries

Interface chemistry inevitably manipulates Li-dendrite and interfacial resistance, which pose serious challenges in solid-state Li-metal batteries. In the November issue of Chem, Wang and co-workers designed a thin, polymeric, fluoride-salt-concentrated interlayer as a precursor and template to form a stable, polymeric, LiF-rich solid-electrolyte interphase, thereby overcoming the above-mentioned issues.

Automated summary

Researchers designed a thin, polymeric, fluoride-salt-concentrated interlayer as a precursor and template to form a stable, polymeric, LiF-rich solid-electrolyte interphase, overcoming challenges with Li-dendrite and interfacial resistance in solid-state Li-metal batteries.