With the merits of high energy density, light weight, and low electrode potential, lithium metal
anodes (LMAs) have lately sparked worldwide attention in the field of batteries. However …

Control of crystallography of metal electrodeposit films has recently emerged as a key to
achieving long operating lifetimes in next‐generation batteries. It is reported that the large …

Lithium metal is one of the most promising anode materials for Li-ion batteries. However,
lithium metal anodes suffer from low coulomb efficiency, short cycle life, and even serious …

Li-ion batteries have a potential risk of thermal runaway. Current safety evaluations in
academia and industry rely on experiments or semi-empirical simulations. This limits the …

The solid electrolyte interphase (SEI) is an integral part of Li-ion batteries and their
performance, representing the key enabler for reversibility and also serving as a major …

The quality of the solid–electrolyte interphase is crucial for the performance of most battery
chemistries, but its formation dynamics during operation are not well understood due to a …

Lithium metal anode is the most ideal candidate for next‐generation energy storage system.
However, the uncontrolled dendrite growth, infinite volume expansion, and undesired side …

Li metal thin films have been considered one of the ideal anode materials for high energy
density rechargeable batteries. Although recent efforts have shown promise in improving the …

Continuous lithium (Li) depletion shadows the increase in energy density and safety
properties promised by zero‐excess lithium metal batteries (ZELMBs). Guiding the Li …

Lithium–sulfur (Li–S) batteries are considered ideal candidates for next-generation batteries
with high energy densities. However, the practical use of sulfur cathodes is hindered by the …