A new battery technology has been developed that delivers significantly higher energy storage—enough to alleviate EV range ...

New research identifies a simple strategy for combatting a major stumbling block in the development of next-generation ...

Researchers have developed a new AI model that predicts dendritic growth in thin films, helping optimize thin-film growth processes. Thin films are grown by depositing tiny layers of materials onto a ...

For many years, in-situ observations of dynamic processes in the electron microscope have been performed. This process began just shortly after the first electron microscopes were invented. Over the ...

A new paper from associate professor Jiandi Wan's group in the UC Davis Department of Chemical Engineering, published in Science Advances, proposes a potential solution to dendrite growth in ...

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 novel nanoscale network structure of these solid polymer electrolytes dramatically improved network mechanical properties, which was demonstrated to be critical to lithium dendrite resistance. The ...

EPFL researchers have successfully engineered cells of the immune system to more effectively recognize cancer cells. The work ...

New research by Brown University engineers identifies a simple strategy for combating a major stumbling block in the development of next-generation solid-state lithium batteries.

Lithium metal batteries have higher charge density than conventional lithium ion batteries but are prone to problems of tree-like metal dendrites, which can cause short circuits or explosions. A new ...