Scientists have developed a new laser-made silicon-graphene anode that delivers lithium-ion (Li-ion) batteries with ...

A single-step laser technique produces prelithiated silicon-graphene battery anodes with over 98% capacity retention after ...

The executive appointments strengthen Global Battery Materials' financial and technical leadership, positioning the company to meet urgent demand for an ex-China supply of natural graphite and active ...

Testing highlights new performance features that may enable longer battery life, deeper discharge, and improved ...

A scalable spray-drying method produces graphite, carbon nanotube, and silicon composite anodes that retain 95% capacity after 100 cycles in lithium-ion batteries.

In what is described as the world first, researchers at the Laboratory for Energy Storage and Conversion (LESC) in the U.S. have managed to devise design principles for enabling an anode-free ...

In recent years, the quest for next-generation, high-energy-density lithium-ion batteries led to anodes with more silicon in place of commonly used graphite. That is due to the abundant, non-toxic ...

A single-step laser process performed at room temperature can produce silicon-graphene battery anodes that hold more than 98% ...

A new contender is emerging in the battery world, promising faster charging and surprising advantages that could shake up ...