This study is led by Prof. Chuan Wu. Serving as one of the most promising candidates among multivalent metal batteries, rechargeable aluminum batteries (RABs) are endowed with various advantages ...

These issues often stem from material limitations, including poor ion transport, unstable electrode interfaces, and dendrite formation in metal-based anodes. Overcoming these barriers requires ...

All-solid-state batteries are emerging energy storage solutions in which flammable liquid electrolytes are substituted by solid materials that conduct lithium ions. In addition to being safer than ...

Solid-state Li-ion batteries are considered the next big thing for electric vehicles, but they form mysterious, branch-like metallic filaments, called dendrites, that can quickly compromise them. MIT ...

Scientists in India fabricated a redox flow battery based on zinc and iron that showed strong storage characteristics and no signs of degradation over 30 charge-discharge cycles. The battery also ...

A new discovery could finally usher the development of solid-state lithium batteries, which would be more lightweight, compact, and safe than current lithium batteries. The growth of metallic ...

While burning electric vehicles, exploding e-bikes and melting smartphones no longer make the headlines, the issue of battery safety has yet to be fully resolved. To address this, UBC researchers ...

Lithium metal anodes are considered highly promising as anode materials for lithium-based batteries. However, the unavoidable growth of dendrites on the lithium anode leads to issues in advancing the ...

The field of battery research is riddled with roadblocks and bottlenecks, but there is one problem that rears its head more than most. Branch-like growths called dendrites continue to plague next-gen ...

Dendritic structures that emerge during the growth of thin films are a major obstacle in large-area fabrication, a key step towards commercialization. However, current methods of studying dendrites ...