A single-step laser technique produces prelithiated silicon-graphene battery anodes with over 98% capacity retention after ...

A single-step laser process performed at room temperature can produce silicon-graphene battery anodes that hold more than 98% of their original capacity after 2,000-plus charge-discharge cycles, ...

Scientists have developed a new laser-made silicon-graphene anode that delivers lithium-ion (Li-ion) batteries with ...

A graphene membrane uses sunlight to separate lithium from magnesium-rich brine, achieving 28-fold enrichment without electricity or pumps.

Graphene Manufacturing Group (GMG) is attempting to solve that problem by producing graphene directly from natural gas and integrating it into products designed for everyday industrial and consumer ...

Researchers at University of Tsukuba have developed a high-performance, reusable, all-solid-state magnesium-air rechargeable battery that prevents electrolyte leakage and exhibits remarkable ...

The batteries last more than 12,000 charge cycles, making them a competitive storage method that could one day dethrone lithium-ion alternatives.

This article is sponsored by Baseus ...

Electric vehicles and grid storage systems depend heavily on lithium and other costly metals.

Grapherry is working with battery companies to evaluate scalable, waste-derived graphene for anode performance, manufacturability, and cost. Working directly with battery companies allows us to ...

NanoMalaysia Bhd (NMB) has achieved a major milestone in Malaysia’s energy storage ambitions with the development of a graphene-enhanced sodium-ion battery prototype delivering an energy density ...