Researchers at the Paul Scherrer Institute PSI have achieved a breakthrough on the path to practical application of lithium ...

Due to our ever-increasing reliance on electronics, researchers are always on the lookout for battery materials with more ...

But a team of Chinese researchers has managed to turn sulfur’s complex chemistry into a strength, making it the primary ...

Researchers have developed a magnetic-controlled “dream battery” system that provides four times the energy storage capacity ...

Today's lithium batteries commonly use a liquid electrolyte to carry ions between the two electrodes, but scientists eyeing solid alternatives see some exciting opportunities ahead. Among them are the ...

Shenzhen PKCELL Battery Co., Ltd. is a leader in the industry and has been recognized as China’s Best Exporter of Lithium ...

Explore the solid state vs lithium ion debate in this detailed battery technology comparison, highlighting differences in ...

Battery fires are rare, but when they happen, they require enormous amounts of firefighting resources. The problem is caused by the flammable electrolyte, which can generate its own oxygen in a ...

In a newly published study, we describe our design for a self-extinguishing rechargeable battery. It replaces the most commonly used electrolyte, which is highly combustible—a medium composed of a ...

Scientists give the lay of the land in the quest for electrolytes that could enable revolutionary battery chemistries. Looking at the future of battery materials. Designing a battery is a three-part ...

Looking at the future of battery materials. Designing a battery is a three-part process. You need a positive electrode, you need a negative electrode, and — importantly — you need an electrolyte that ...