Lithium chloride electrolyte utilizes in-situ anion receptor to enhance ion conduction while maintaining stability at highly elevated concentrations

https://bioengineer.org/stable-licl-electrolyte-with-in-situ-anion-receptor/

"in-situ synthesis also enhances selectivity in ion transfer, ensuring lithium ions preferentially conducted over other, potentially harmful ions, reducing risk of side reactions... lower viscosity/ favorable thermal behavior improves electrochemical stability... sustainable materials, longer lifetime, safer, reduced internal resistance, increased efficiency... future: performance/ safety optimization, scalability/ production, applicability to other types of ionic liquids/ salt solutions... grid storage, renewable integration, portable electronics"