Graphite is an incredibly important, versatile mineral, with uses spanning industries. Because graphite can easily conduct electricity and withstand high temperatures, it is especially important for ...

Expanded graphite has promising potential environmental applications due to its porous structure and oleophilic nature, which allow it to absorb large quantities of oil. The material is produced by ...

A plastic bottle tossed into a recycling bin could one day help power an electric vehicle, smartphone or renewable energy ...

CAMBRIDGE, MA -- Graphite is a key structural component in some of the world’s oldest nuclear reactors and many of the next-generation designs being built today. But it also condenses and swells in ...

As more and more Americans embrace electric vehicles, automakers and the federal government are racing to secure the materials needed to build EV batteries, including by pouring billions of dollars ...

A University of Washington-led team has discovered that, by stacking a sheet of graphene onto bulk graphite at a small twist angle (top), “exotic” properties present at the graphene-graphite interface ...

A reaction that puzzled scientists for 50 years has now been explained by researchers at Umeå University. Rapid structural snapshots captured how graphite transforms into graphite oxide during ...

The phase transition from graphite to diamond is an appealing object of study because of many fundamental and also, practical reasons. The out-of-plane distortions required for the transition are a ...

"This video explains why diamond and graphite have different properties depsite both being made of carbon. Diamond has a giant covalent structure with strong bonds, meaning that there are no free ...

Graphite is an incredibly important, versatile mineral, with uses spanning industries. Graphite is an essential component of many batteries, including lithium-ion batteries, and demand is only ...