A research team has developed a technology that dramatically enhances the stability of ultra-thin metal anodes with a ...

Professor Yu Jong-sung’s team at DGIST, in collaboration with Pusan National University, develops a technology to enhance the stability of ultra-thin lithium metal anodes ...

A team at DGIST has overcome key challenges in lithium metal battery technology by introducing an electrolyte additive.

QuantumScape thinks it solved the biggest problems with its anode-free lithium metal battery that will most likely debut on a ...

Key components in a traditional lithium-ion battery include an anode, electrolyte, separator and cathode. They all work ...

Promising advances in nuclear fusion have sparked renewed interest in this technology as a sustainable energy source and ...

LLZO-based solid-state batteries show limited energy density gains and face production challenges; hybrid electrolytes may be ...

Fast-charging batteries are everywhere these days—in our phones, laptops, and electric cars. While they’re convenient, they ...

Researchers have found an environmentally safer way to extract the lithium 6 needed to create fuel for nuclear fusion ...

Pyrovanadates are deemed as an ideal class of potential Calcium ion storage hosts, owing to abundant confined species.