A new X-ray imaging technique can help researchers to peer inside batteries and study what happens at their interfaces during ...

It's (going to be) electric.But how soon? How quickly our society can maximize the benefit of electrification hinges on finding cheaper, higher ...

A team of chemists led by Feng Lin and Louis Madsen found a way to see into battery interfaces, which are tight, tricky spots ...

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

Innovative gel polymer electrolyte design enhances lithium metal battery efficiency and safety, enabling operation from -30 ...

Researchers have revealed that hybrid approaches to integrate solid-state lithium metal batteries with other materials can ...

A recent study evaluating garnet-type solid electrolytes for lithium metal batteries finds that their expected energy density advantages may be overstated. The researchers posited that composite or ...

Institute of Physical Chemistry, Justus Liebig University Giessen, Heinrich-Buff-Ring 17, Giessen, 35392 Germany Center for Materials Research (ZfM/LaMa), Justus Liebig University Giessen, ...

The growth in the forecast period can be attributed to transition to solid-state batteries, advancements in lithium-sulfur batteries, demand for low-cost materials, expansion of energy storage ...

Korean researchers have developed advanced Ni-rich cathodes that improve all-solid-state battery performance, offering longer lifespans and greater energy efficiency.

The idea of solid-state batteries is to replace the liquid electrolyte in lithium-ion with a layer of solid metal. This is the major source of gain of efficiency, as electrolytes are heavy and ...