Gopalakrishnan and his team have studied how to boost the movement of ions in magnesium batteries, which can have a higher ...

MIT researchers have created a model that shows how lithium moves in batteries and why it affects charging speed and power.

Researchers now have a clearer picture of the chemical mechanisms underlying lithium-ion batteries—and it could lead to ...

The MIT study has created a new model, called the Coupled Ion-Electron Transfer (CIET) model, to advance lithium-ion ...

BENGALURU: Lithium-ion batteries power most electronics, but have limited density – they can store only a certain amount of ...

This schematic illustrates how atomic-scale Ni catalysts embedded in a porous graphene matrix address key challenges in Li–O₂ batteries. By simultaneously enhancing cathode reaction kinetics and ...

The Indian Institute of Science (IISc) researchers, in a new study using a machine learning model and amorphous materials, ...

A way of tracing the origin of lithium could help hold battery producers accountable and ensure that they only use ethical sources for the metal, which is becoming increasingly vital to the global ...

Magnesium batteries could store more energy than lithium. New materials make ions move faster, pointing to smaller batteries ...