The strong industrial interest in fullerenes stems from their unique combination of characteristics. As a carbon nanomaterial — a family that includes carbon nanotubes and graphene ...

For the transformation pathway, fullerenes are known to be a suitable ... a gaseous carbon source is dehydrogenated to form the nanotubes, generally at temperatures between 500 and 1,000 °C ...

This 1999 book covers all the most important areas of nanotube research, as well as discussing related structures such as carbon nanoparticles and 'inorganic fullerenes'. Carbon nanotubes are ...

Three additional forms of carbon that were discovered between 1985 and 2004 have caused the current excitement among researchers about carbon nanomaterials – fullerenes, carbon nanotubes, and in ...

Researchers have taken a novel approach to studying the interaction between certain topological metamaterials and sound wave ...

Having joined Nano-C in 2001, shortly after its foundation while being a Research Associate in the Department of Chemical Engineering of MIT, Dr. Richter has been working extensively for more than 15 ...

Arc discharge is a high-temperature method used to produce carbon nanotubes and fullerenes. In this technique, a high current is passed between two graphite electrodes in an inert atmosphere, causing ...

Researchers have achieved a significant breakthrough in the synthesis of carbon nanotubes, also known as the 'king of nanomaterials.' Researchers have achieved a significant breakthrough in the ...

A collaboration of researchers from Japan and the US has demonstrated how twisted carbon nanotubes can store up to three ...

Researchers have achieved a significant breakthrough in the synthesis of carbon nanotubes (CNTs) by developing a novel catalyst that allows for precise control over their atomic arrangement ...

This book covers all the most important areas of nanotube research, as well as discussing related structures such as carbon nanoparticles and 'inorganic fullerenes'. Carbon nanotubes are ...