This review article deals with the ionic conductivity of solid‐state electrolytes for lithium
batteries. It has discussed the mechanisms of ion conduction in ceramics, polymers, and …

Solid-state lithium batteries are flourishing due to their excellent potential energy density.
Substantial efforts have been made to improve their electrochemical performance by …

With the rapid development of energy storage technology, solid‐state lithium batteries with
high energy density, power density, and safety are considered as the ideal choice for the …

All-solid-state Li batteries (ASSBs) employing inorganic solid electrolytes offer improved
safety and are exciting candidates for next-generation energy storage. Herein, we report a …

All-solid-state batteries are often assumed to be safer than conventional Li-ion ones. In this
work, we present the first thermodynamic models to quantitatively evaluate solid-state and Li …

Li-metal battery systems are attractive for next-generation high-energy batteries due to their
high theoretical specific capacity and Li-metal's low redox potential. Anode-free Li-metal …

Solid-state lithium-metal batteries (SLMBs) have been regarded as one of the most
promising next-generation devices because of their potential high safety, high energy …

All‐solid‐state batteries have piqued global research interest because of their
unprecedented safety and high energy density. Significant advances have been made in …

The solid electrolyte interphase (SEI) layer is pivotal for stable lithium (Li) metal batteries
especially under a high rate. However, the mechanism of Li+ transport through the SEI has …

Rechargeable batteries of high energy density and overall performance are becoming a
critically important technology in the rapidly changing society of the twenty-first century …