Solid‐state lithium metal batteries with garnet‐type electrolyte provide several advantages
over conventional lithium‐ion batteries, especially for safety and energy density. However, a …

Major challenges in the development of solid-state batteries using garnet-type solid-state
electrolytes (SSEs) include suppressing dendrite growth, improving moisture stability, and …

Solid-state lithium batteries (SSBs) have been widely researched as next-generation energy
storage technologies due to their high energy density and high safety. However, lithium …

All-solid-state batteries using garnet-type solid-state electrolytes (SSEs) are promising
candidates for safe, high energy density batteries due to their wide electrochemical stability …

Continued improvement of Ni-rich cathode materials is necessary to achieve higher energy
density and cycle life targets for lithium-ion batteries. Despite having a significant influence …

Lithium metal as an anode has been widely accepted due to its higher negative
electrochemical potential and theoretical capacity. Nevertheless, the existing safety and …

Significant interest in the electrocatalytic reduction of molecular nitrogen to ammonia (the
nitrogen reduction reaction: NRR) has focused attention on transition metal carbides as …

The dissolution, migration and deposition (DMD process) of transition metal ions during
cycling is a well-known phenomenon reported in literature especially concerning high …

Layered, nickel-rich lithium transition metal oxides have emerged as leading candidates for
lithium-ion battery (LIB) cathode materials. High-performance applications for nickel-rich …

We report on the use of an atmospheric pressure, open-air plasma treatment to remove
Li2CO3 species from the surface of garnet-type tantalum-doped lithium lanthanum zirconium …