Thermo-responsive materials are smart materials that are capable of reacting to a local
temperature variation, with high stimuli-sensitivity and/or facile reversibility. In recent years …

Parasitic reactions inevitably occur at the interface of lithium (Li) metal and polymer
electrolytes due to ultrahigh Li reducibility coupled with poor interfacial stability or ionic …

The extreme deformation and external damage of electrolyte materials during the working
period limit its further development in flexible wearable electronics. Thus, the polyurethane …

Solid-state electrolytes (SSEs) are essential materials in all-solid-state lithium-metal
batteries. However, a comprehensive SSE possessing high ionic conductivity, broad …

The global reliance on electric vehicles (EVs) has been rapidly increasing due to the
excessive use of fossil fuels and the resultant CO2 emissions. Moreover, EVs facilitate using …

Abstract Zinc–iodine (Zn–I2) batteries are promising, low‐cost and safe aqueous
rechargeable energy storage devices. An iodide shuttle‐induced corrosion and poor zinc …

In order to prevent the deformation and fracture damage of polymer electrolytes, thus
providing high safety for flexible batteries, solid-state polymer electrolytes with both self …

The role of energy storage as an effective technique for supporting energy supply is
impressive because energy storage systems can be directly connected to the grid as stand …

Dendritic growth of lithium (Li) is hindering potential applications of Li-metal batteries, and
new approaches are needed to address this challenge. The confinement effect of two …

With the great development of rechargeable energy storage devices, security, operation,
product life and quality of experience of these devices have attracted special attention …