Nano-Welding Creates Tiny Junctions

NANO TECH

This is the first time single-walled nanotubes have been welded together, although multi-walled nanotubes with junctions previously have been created using growth techniques. The electrical properties of single-walled nanotubes surpass those of multi-walled tubes, which is why so many researchers have been anxious to try this experiment, said Ajayan.

Troy - Sep 19, 2002
Researchers have discovered how to weld together single-walled carbon nanotubes, pure carbon cylinders with remarkable electronic properties. The discovery could pave the way for controlled fabrication of molecular circuits and nanotube networks.

Pulickel Ajayan, professor of materials science at Rensselaer Polytechnic Institute in Troy, N.Y., and his colleagues in Germany, Mexico, the U.K., and Belgium used irradiation and heat to form the welded junctions.

"No one knew if junctions could be created," said Ajayan. "Single-walled carbon nanotubes are perfect cylinders without any defects, but to create junctions between them, inter-tube carbon-carbon bonds need to form. The irradiation and heating process we use creates just enough defects for these bonds to form without damaging their electrical properties."

The results were obtained after several years of ongoing experimentation. The difficulty was finding nanotubes that cross and touch. This is critical for the initiation of inter-tube links. "Unfortunately, we can't control this type of alignment just yet," Ajayan said.

The researchers used a special electron microscope that has the capability to irradiate and produce the heat necessary for the experiment. The high-voltage microscope, located in Stuttgart, Germany, is one of only a few worldwide.

NANO TECH

Purdue Creates Self-Generating Nanotubes With 'Dial-Up' Properties

West Lafayette - Sep 02, 2002
Nanotubes, stringy super molecules already used to create fuel cell batteries and tiny computer circuits, could find myriad new applications ranging from disease treatment to plastics manufacturing to information storage, reports a Purdue University research team.

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