Although there are various strategies for solid‐state polymer lithium batteries (SSPLBs)
manufacturing, the most promising is the in situ polymerization process. The in situ …

In the development of all‐solid‐state lithium batteries (ASSLB), progress is made with solid‐
state electrolytes; however, challenges regarding compatibility and stability still exist with …

Solid‐state lithium‐metal batteries constructed by in‐situ solidification of cyclic ether are
considered to be a critical strategy for the next generation of solid‐state batteries with high …

Incompatible interphases resulting from the irreconcilable contradiction between impedance
and mechanical strength have become one of the major obstacles to the practical …

The application of lithium‐based batteries is challenged by the safety issues of leakage and
flammability of liquid electrolytes. Polymer electrolytes (PEs) can address issues to promote …

In situ polymerization technology is expected to empower the next generation high specific
energy lithium batteries with high safety and excellent cycling performance. Nevertheless …

1, 3-Dioxolane (DOL) has received great attention as a polymer electrolyte (PE) for Li-metal
batteries (LMBs) due to its desirable interfacial contact and decent compatibility with Li …

Abstract The use of poly (1, 3‐dioxolane)(PDOL) electrolyte for lithium batteries has gained
attention due to its high ionic conductivity, low cost, and potential for large‐scale …

Highlights The current issues and recent advances in polymer/inorganic composite
electrolytes are reviewed. The molecular interaction between different components in the …

All-solid-state lithium batteries (ASSLIBs) have received a lot of attention due to their
excellent safety and high energy density, making them a potential alternative to traditional …