Scientists have developed a scalable method to produce porous graphene membranes that efficiently separate carbon dioxide. The breakthrough could significantly reduce the cost and footprint of carbon ...

Capturing carbon dioxide (CO2) from industrial emissions is crucial in the fight against climate change. But current methods, ...

Chinese scientists have recently achieved the fabrication of single-atom-layer metals with a thickness of merely one-millionth of an A4 paper sheet, setting a new record for the thinnest metal ...

Capturing carbon dioxide (CO₂) from industrial emissions is crucial in the fight against climate change. But current methods, like chemical ...

However, most of them, including graphene, are generated by peeling sheets from layered crystalline materials. “Like a book, you can pick a single page up and make a 2D sheet,” says Guangyu ...

It can only add single bits at a time and is limited to kilohertz clock speeds, but it is capable of executing the full ...

CNTs are exactly what they sound like: sheets of graphene that have been rolled up into a nano-scale tube. The walls of the ...

Single-atom catalysts are at the cutting edge of catalysis research ... In SACs, the catalytically active single atoms are anchored onto supports such as carbon, metal oxides, or graphene. This ...

The single-layer graphene, just one atom thick, proved to be an ideal platform for this effect. Its uniform structure allowed ...

Each layer of graphene is as thin as a single atom and structured in a chicken-wire lattice of hexagonal carbon atoms. By stacking two sheets at a very specific angle to each other, he found that ...

The high energy of the impinging hydrogen atom is first absorbed by neighboring carbon atoms (orange and yellow) and then passed on to the graphene surface in form of a sound wave Advanced Search Home ...