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

Researchers at the Next-Generation Battery Research Center of Korea Electrotechnology Research Institute (KERI) developed a 1D Li-confinable porous carbon structure with a hollow core, and a small ...

Lithium metal, and certain other battery concepts, are known to have the potential for far better energy storage performance than today’s lithium-ion technologies. But lithium metal in particular is ...

Dendritic structures that emerge during the growth of thin films are a major obstacle in large-area fabrication, a key step towards commercialization. However, current methods of studying dendrites ...

Anode analysts: Chongmin Wang (left), Wu Xu (centre) and Yang He (right) with their modified environmental transmission electron microscope. (Courtesy: Andrea Starr) Three pioneers of lithium-ion ...

A stellar dendrite is a snowflake with a classic star-shaped pattern, formed when ice crystals grow rapidly in cold, moist ...

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 ...

Dendrites—branching structures that look like tree limbs—are fun to draw and good on neurons, but they’re generally best avoided in lithium-ion batteries. As ions are exchanged between the anode and ...

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.