Electrochemical devices, especially energy storage, have been around for many decades.
Liquid electrolytes (LEs), which are known for their volatility and flammability, are mostly …

Polymer electrolytes continue to offer the opportunity for safer, high-performing next-
generation battery technology. The benefits of a polymeric electrolyte system lie in its ease …

Halide-based solid-state halide electrolytes (SSEs) were recently revived as promising
candidates for next-generation all-solid-state batteries due to their superionic conductivity …

Lithium batteries are in high demand in different technological fields. However, the operating
temperature is required to be below 70° C, and this limits their use in applications …

Preparation of composite polymer electrolytes (CPEs) is one of the most effective ways to
improve ionic conductivity and electrochemical properties in lithium ion batteries …

Solid-state lithium batteries are considered one of the most promising battery systems due to
their high volumetric energy density and safety. Poly (ethylene oxide)(PEO) is the most …

Ion conducting capability is often imparted to polymeric materials through short polyether
side-chains, and yet the impact of this graft polymer architecture on ion solvation and …

Solvent-free solid-state polymer electrolytes (SPE) that go beyond the barriers like intrinsic
low ionic conductivity, slow ion dynamics, and unstable electrode-electrolyte interphase will …

Previous studies have proven that using chemically crosslinked gels as a polymer host in
gel polymer electrolytes (GPEs) has many advantages, including enhanced mechanical …

The increased demand of electronic devices promotes the development of advanced and
more efficient energy storage devices, such as batteries. Lithium-ion batteries (LIBs) are the …