Researchers created a covalently bridged fullerene framework, which shows that carbon can store lithium in a completely different and much more stable way, avoiding structural collapse and preventing ...

Scientists have developed a way to precisely tune atomic-scale platinum “skin” layers on porous PtCu nanodendrites—revealing ...

Seismic waves passing through Earth's inner core have revealed much about our planet's iron center: how it's changing shape, ...

Earth’s inner core has long challenged researchers because seismic waves do not move through it uniformly. Compressional waves generated by earthquakes travel roughly 3 to 4 percent faster along Earth ...

Explore how nanotechnology acts as the 'Convergence Engine' for AI materials discovery, CRISPR gene therapy delivery, and ...

Scientists unveil a solid electrolyte that moves lithium as fast as liquids, promising safer, fast-charging batteries.

Earth’s inner core has long puzzled scientists because seismic waves move through it unevenly. Compressional waves from ...

Deep beneath our feet, far beyond the reach of any drill, new research suggests that Earth’s center is far more intricate ...

Snakes have intrigued scientists for centuries. Studying these serpents has offered clues into their bodies, venom chemistry, ...

Research published in the Journal of the American Chemical Society demonstrates a new way to make carbon-based battery ...

This research demonstrates a new way to make carbon-based battery materials much safer, longer lasting, and more powerful by ...

Carbon-based batteries could become safer, more durable, and more powerful by following this new method that fundamentally redesigns how fullerene molecules are connected.