Lithium‐ion/sodium‐ion batteries are the most advanced energy storage devices, but the
structural evolution of electrode materials, electrolyte decomposition, the growth of Li/Na …

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 …

The safety problem of lithium-ion batteries (LIBs) has restricted their further large-scale
application, especially in electrical vehicles. As a key component of LIBs, separators are …

Abstract Li1. 3Al0. 3Ti1. 7 (PO4) 3 (LATP) solid‐state electrolyte has garnered considerable
interest owing to its competitive room‐temperature Li‐ion conductivity, air stability, and …

Materials characterization is fundamental to our understanding of lithium ion battery
electrodes and their performance limitations. Advances in laboratory-based characterization …

The separator with high Young's modulus can avoid the danger of large-sized dendrites, but
regulating the chemical behavior of lithium (Li) at the separator/anode interface can …

The realization of lithium‐metal (Li) batteries faces challenges due to dendritic Li deposition
causing internal short‐circuit and low Coulombic efficiency. In this regard, the Li‐deposition …

Lithium metal is expected to be an ideal anode material for future high-energy density
lithium batteries. However, the uncontrollable growth of lithium dendrites resulting in a short …

Future innovations and developments in advanced rechargeable batteries require atomic-
scale observation and understanding of the failure mechanisms of secondary batteries …

The uncontrolled deposition/dissolution process of lithium dendrites during electrochemical
cycling in batteries limits the large-scale application of Li metal anodes. Investigating the …