This work introduces a novel tandem hydrothermal-calcination synthesis strategy to construct a p-n heterojunction between ...

In a recent article, researchers examined the adsorption capabilities of MIL-101(Fe)/graphene and g-C3N4/graphene composites ...

More information: Xinghui Liu et al, Enhanced pollutant photodegradation activity of graphitic carbon nitride on via bismuth oxyhalide graphene hybridization and the mechanism study, Industrial ...

One of the hardest engineering challenges in the world of fusion energy is developing materials that can withstand the ...

Graphene is an atomic-scale honeycomb lattice made of carbon atoms. Graphene is undoubtedly emerging as one of the most promising nanomaterial because of its unique combination of superb properties, ...

Nuclear fusion could be an ideal solution to mankind's energy problem, guaranteeing a virtually limitless source of power ...

Carbon, graphite and diamond materials include vitreous, amorphous, or glassy carbon; hexagonal and pyrolytic graphite (PG); and naturally-occurring and synthetic diamonds, diamond-like carbon (DLC) ...

the more it behaves like graphite. The narrower the diameter of the nanotube, the more its intrinsic properties depends upon its specific type. Here is an overview of the most important and largest ...

Can theory and computation methods help the search for the best divertor material and thus contribute to making fusion energy ...

Learn more here. Radiocarbon dating, or carbon-14 dating, is a scientific method that can accurately determine the age of organic materials as old as approximately 60,000 years. First developed in the ...

Carbon exists in different forms, including graphite, diamond and graphene. Carbon atoms are arranged in a regular pattern, meaning carbon is solid at room temperature. Diamond is transparent.