Oxide ceramic electrolytes (OCEs) have great potential for solid-state lithium metal (Li0)
battery applications because, in theory, their high elastic modulus provides better resistance …

Lithium metal is considered as the ultimate anode material for the next generation of high-
energy density batteries. However, non-uniform lithium dendrite growth, serious electrolyte …

Inorganic components in the solid electrolyte interphases (SEIs) on lithium (Li) metal play a
critical role in Li metal batteries (LMBs) since the presence of numerous inorganic …

Calendar aging of lithium metal anodes (LMAs) is both ubiquitous and crucial in practical
applications, representing an emerging and non-negligible issue. Herein, the controlled …

Herein, we report the enhanced electrochemical performance of a solid-state cell realized
through an engineered solid electrolyte-cathode interface via a simple casting technique …

Lithium metal battery (LMB) is regarded as one of the most promising high‐energy energy
storage systems. However, the high reactivity of lithium metal and the formation of lithium …

Herein, we have developed a High-Entropy (∼ 1.52 R, calculated at M-site) lithium-stuffed
NASICON-type solid electrolyte [Li1. 3Sn1. 7/3Zr1. 7/3Ti1. 7/3Al0. 1Sc0. 1Y0. 1 (PO4) 3] with …

Lithium plating/stripping occurs at the anode/electrolyte interface which involves the flow of
electrons from the current collector and the migration of lithium ions from the solid-electrolyte …

The stability and functional characteristics of the solid electrolyte interface (SEI) membrane
have a decisive impact on the overall performance of battery. In this study, the simulation …

The commercial potential of composite polymer electrolytes (CPEs) is significant due to their
ability to combine the advantages of both inorganic and polymer solid electrolytes. However …