Transforming Interfacial Reactivity Into Stability for Durable High-Current Solid-State Sodium Batteries.
Puntos clave
The aim is to explore how interfacial chemistry can enhance the durability and performance of high-current solid-state sodium batteries.
Full cells tested for capacity retention over 1200 cycles at 2 C.
Interfacial chemistry was focused as a key design principle for battery development.
Full cells deliver >99% capacity retention after 1200 cycles.
The study focuses on enhancing durability for high-current applications.
Resumen
. Full cells deliver >99% capacity retention over 1200 cycles at 2 C. This work establishes interfacial chemistry as a tunable design principle for durable, high-current solid-state metal batteries.