A research team affiliated with UNIST has demonstrated that liquid electrolytes, when frozen, can still facilitate lithium-ion conduction sufficient for battery operation—challenging the traditional ...

A battery’s internal life is a stubborn mystery: it functions perfectly until, without warning, ...

Electric vehicles have advanced rapidly over the past decade, but battery technology remains the ...

Unlike much of the news in the energy storage field, which often focuses on cathode breakthroughs, this study zeroes in on the chemistry of electrolytes – ...

The application of polymer electrolytes is expected to revitalize solid-state lithium metal batteries (SSLMBs) with high ...

As the electric vehicle era enters full scale, demand is increasing for batteries that can travel farther and last longer.

Lithium metal batteries promise dramatically higher energy density than today’s lithium-ion systems, yet their widespread use remains limited by unstable lithium deposition, dendrite growth, and rapid ...

South Korean researchers have unveiled a new lithium-metal battery technology that could push electric ...

Liquid metal batteries (LMBs) represent a rapidly advancing class of devices optimised for grid‐scale energy storage. These batteries typically utilise stratified liquid electrodes and a molten salt ...

Rechargeable batteries are everywhere—from portable electronic devices and electric vehicles to renewable energy storage.