Research published in the Journal of the American Chemical Society demonstrates a new way to make carbon-based battery materials much safer, longer lasting, and more powerful by fundamentally ...

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 ...

Fullerene's perfect symmetry turns a long-standing weakness of molecular electronics into a programmable three-state switch.

This graphic illustrates a zinc-air battery can use a fullerene-metalloporphyrin cocrystal derived Co, N co-doped carbons as an oxygen reduction reaction catalyst. Zinc-air batteries are an ...

This research demonstrates a new way to make carbon-based battery materials much safer, longer lasting, and more powerful by fundamentally redesigning how fullerene molecules are connected. Today's ...

Fullerenes are all-carbon molecules with a distinctive closed-cage structure, whose unique properties have attracted considerable attention across diverse scientific disciplines. Ongoing research has ...

Photoionization and scattering in fullerene systems represent a rich area of research that bridges fundamental physics and potential technological applications. In fullerenes, particularly the iconic ...

As aging research expands worldwide, the scientific community continues to explore how reactive oxygen species (ROS) and oxidative stress influence biological aging processes. Etheros develops ...