Simultaneously boosting ionic conductivity, Li+ transference number and oxidative stability in solid polymer electrolytes via ionic coordination regulation
Key Points
Enhanced ionic conductivity reaches significant levels, promoting efficiency in energy applications.
Lithium transference number shows clear improvement, being crucial for battery performance.
Observational analysis using ionic coordination regulation explores the relationship between structure and function.
Highlights the potential for better battery materials and applications in energy storage technologies.
Simultaneously boosting ionic conductivity, Li+ transference number and oxidative stability in solid polymer electrolytes via ionic coordination regulation | Synapse