Recent progress in synthesizing non-liquid electrolytes with high ionic conductivity has
rejuvenated the field of solid-state energy storage devices and promises to provide safer …

Rechargeable batteries that use Li metal as anode are regarded as the most viable
alternative to state-of-the-art lithium ion batteries (LIBs), since Li metal batteries (LMBs) are …

Li+ conducting halide solid-state electrolytes (SEs) are developing as an alternative to
contemporary oxide and sulfide SEs for all-solid-state batteries (ASSBs) due to their high …

Solid-state sodium ion batteries are frequently referred to as the most promising technology
for next-generation energy storage applications. However, developing a suitable solid …

The development of high-performance solid polymer electrolytes is crucial for producing all-
solid-state lithium metal batteries with high safety and high energy density. However, the low …

The next-generation electric vehicle requires superior safety and high-energy-density
batteries for better performance. Currently, solid polymer electrolytes provide better safety …

One of the main limitations to the application of anode free lithium battery is low Coulombic
efficiency, this loss of capacity is due to irreversible processes, mainly the formation of dead …

Interfacial instability including the high charge‐transfer resistance and the uncontrolled
lithium dendrite growth have severely restricted the safety, fast‐charging, and high‐power …

Ceramic electrolyte-based solid-state batteries suffer from instability at the Li metal–ceramic
interface, resulting in poor and irregular lithium electrodeposition and high interfacial …

The contact between solid polymer electrolytes and electrodes is a hot topic of investigation
in lithium-ion batteries since the structure and composition of the interfaces is the limiting …