All‐solid‐state batteries have piqued global research interest because of their
unprecedented safety and high energy density. Significant advances have been made in …

High-voltage all-solid-state lithium batteries (HV-ASSLBs) have attracted enormous attention
as ideal next-generation energy storage devices with improved safety and higher energy …

The development of solid-state Li-metal batteries has been limited by the Li-metal plating
and stripping rates and the tendency for dendrite shorts to form at commercially relevant …

A silicon (Si) anode with a high theoretical specific capacity (3579 mA hg− 1) offers great
promise for realizing high-energy solid-state batteries (SSBs). However, given Si's huge …

Aqueous zinc‐ion batteries (AZIBs) offer promising prospects for large‐scale energy storage
due to their inherent abundance and safety features. However, the growth of zinc dendrites …

Aqueous Zn‐ion energy‐storage deviceswith metal Zn as anodes, including batteries and
capacitors (ZIBs and ZICs), is largely hindered by dendritic growth and low coulombic …

Abstract Garnet‐type Li6. 4La3Zr1. 4Ta0. 6O12 (LLZTO) suffers from instability against moist
air, poor interfacial contact with anode, and serious dendrite issue, which greatly impede its …

Garnet‐based solid‐state Li‐metal batteries (GSSBs) have the merits of high energy density
and high safety. However, the realization of a stable and well‐matched Li| garnet interface …

The softness of sulfur sublattice and rotational PS4 tetrahedra in thiophosphates result in
liquid‐like ionic conduction, leading to enhanced ionic conductivities and stable electrode …

Solid-state electrolyte separators play a critical role in improving energy density, charging
rate, and safety in next-generation batteries; however, controlling the interface between Li …