In recent years, there has been an increasing demand for batteries thanks to the development of eco-friendly and electronically driven vehicles, and the growing usage of mobile phones, tablets and ...

Scientists have been playing with pure carbon compounds for centuries, starting with diamond and graphite and now with fullerenes, nanotubes and graphene. One type of 3D geometry has been missing, ...

Perhaps carbon nanotubes, which are associated with graphite, are more essential than fullerenes. The molecular structure of graphite is like stacked, one-atom-thick sheets of chicken wire – a planar ...

Highly porous carbon-graphite foam structures replace lead plates in a move to dramatically extend battery life, as well as reduce weight and conserve space. Inside the carbon foam are pores into ...

As global demand for electric vehicles and renewable energy storage surges, so does the need for affordable and sustainable battery technologies. A new study led by researchers from the Department of ...

A new material structure generates steam by soaking up the sun. The structure -- a layer of graphite flakes and an underlying carbon foam -- is a porous, insulating material structure that floats on ...

Cyclo[18]carbon. Artistic representation of AFM data of a cyclo[18]carbon molecule, with the determined molecular structure fading in. Credit: IBM Research Bonding matters. It explains the difference ...

Pure carbon can take a great variety of forms. Diamond, carbon nano­tubes and graphene—the last the subject of the 2010 Nobel Prize in Physics—­all have unique physical and chemical qualities and ...