The development of solid polymer electrolytes for lithium− metal (Li0) batteries (LMBs) with
high energy density and high safety has been a long-standing goal that attracted intensive …

Solid‐state sodium batteries (SSSBs) are poised to replace lithium‐ion batteries as viable
alternatives for energy storage systems owing to their high safety and reliability, abundance …

With the development of the next generation energy storage systems, rechargeable
secondary batteries that improve energy density and safety are necessary to achieve energy …

The construction of an ex-situ artificial solid electrolyte interphase (SEI) layer has been
recognized as a viable solution to address the limitation of sodium metal anode (SMA) …

High-performance polymer electrolyte systems for lithium–metal batteries (LMBs) commonly
contain a relatively high amount of fluorine to stabilize the electrode| electrolyte interfaces …

Sodium metal batteries (SMBs) are promising candidates for next-generation high-energy-
density storage devices, given their high theoretical specific capacity and low cost. Despite …

Solid polymer electrolytes have yet to achieve the desired ionic conductivity (> 1 mS/cm)
near room temperature required for many applications. This target implies the need to …

Sodium batteries are an attractive alternative for future energy storage as they can be
produced with abundant and low-cost materials. Nonetheless, sodium-ion batteries (SIBs) …

The practical usage of sodium metal batteries is mainly hampered by their potential safety
risks caused by conventional liquid-state electrolytes. Hence, solid-state sodium metal …

Compared with traditional binary ion electrolytes, single-ion electrolytes have higher ion
migration number and can avoid concentration polarization. In this work, single proton …