Electrochemically grown metal networks inside gels overcome the long-standing trade-off between strength and conductivity.

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 ...

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 ...

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 ...

Solid-state batteries offer many advantages over their counterparts that use liquid electrolytes. They are inherently safe, thanks to the fact that the electrolyte is not flammable, and they can store ...

Lithium-metal batteries are among the most promising technologies for energy storage. They offer significantly more energy in less space—and at a lower weight. However, one phenomenon slows down their ...

Lithium-ion batteries have revolutionized the way we power our gadgets, and they even nabbed the Nobel Prize in Chemistry this year. But scientists want to make even more powerful versions. Replacing ...

The PCA enabled the team to quantify the structural changes in dendrites and correlate these changes with Gibbs free energy. This relationship revealed the specific conditions and mechanisms that ...