nsf.gov - Materials Research (DMR) Discoveries - Nanotubes Not for Toothpaste . . . Yet

HOME

FUNDING

AWARDS

Materials Research (DMR)

DMR Home

About DMR

Funding Opportunities

Awards

News

Events

Discoveries

Publications

Career Opportunities

Workshops and Reports

Focused Research Groups

Research and Education Highlights

See Additional DMR Resources

View DMR Staff

MPS Organizations

Astronomical Sciences (AST)

Chemistry (CHE)

Materials Research (DMR)

Mathematical Sciences (DMS)

Physics (PHY)

Office of Multidisciplinary Activities (OMA)

Proposals and Awards

Proposal and Award Policies and Procedures Guide

	Introduction
	Proposal Preparation and Submission
		Grant Proposal Guide
		Grants.gov Application Guide
	Award and Administration
		Award and Administration Guide

Award Conditions

Other Types of Proposals

Merit Review

NSF Outreach

Policy Office

Additional DMR Resources

DMR Proposal Submission Deadline

Broadening Participation

Professional Societies

Materials Websites

NSF Guide to Proposal Writing

Links for Kids

Other Site Features

Special Reports

Research Overviews

Multimedia Gallery

Classroom Resources

NSF-Wide Investments

Discovery
Nanotubes Not for Toothpaste . . . Yet

Researchers Squeeze Even Rock-Hard Materials Through Minuscule Carbon Tubes

Electrons hitting an iron carbide-filled carbon nanotube cause it to contract and extrude material.
Credit and Larger Version

July 25, 2006

When researchers fire electron beams at multi-layered carbon nanotubes, they collapse, much like a tube of toothpaste, with such force the nanotubes extrude whatever may be inside, even extremely hard iron carbide. The process--which has applications for manufacturing durable, metal nanowires and similar materials--creates pressures within the tubes that reach one-tenth the crushing force in the Earth's core.

National Science Foundation-supported researcher Pulickel Ajayan of Rensselaer Polytechnic Institute (RPI) worked with an international team to develop the process. First, the researchers constructed long nanotubes of onion-like layers of carbon containing a 9-nanometer (billionth of a meter) core of iron or iron carbide, and then they blasted the tube with a beam of electrons. The tube collapsed, extruding an iron-carbide wire only 2 nanometers in diameter. What's more, the tube neatly pinched off the wire's end where the tube collapsed completely.

The findings appeared in the May 26, 2006, issue of the journal Science. Florian Banhart of Johannes Gutenberg University in Mainz, Germany, led the team, which included colleagues at the Institute for Scientific and Technological Research in San Luis Potosi, Mexico, and the University of Helsinki in Finland.

Additional information is available in the RPI press release linked below.

-- Josh Chamot

Investigators
Pulickel Ajayan

Related Institutions/Organizations
Rensselaer Polytechnic Institute

Locations
Troy , New York

Total Grants
$246,000

Related Websites
Carbon Nanomaterials Research Group: http://www.rpi.edu/~ajayan/locker/INDEX.HTM
RPI Press Release on Dr. Ajayan's work: http://news.rpi.edu/update.do?artcenterkey=1579

Electron micrographs reveal the atomic structure of the carbon nanotube and its filler material.
Credit and Larger Version

Web Policies and Important Links

Contact Webmaster

Mathematical & Physical Sciences (MPS)
The National Science Foundation, 4201 Wilson Boulevard, Arlington, Virginia 22230, USA
Tel: (703) 292-5111, FIRS: (800) 877-8339 | TDD: (800) 281-8749

Last Updated:

July 27, 2006

Text Only

Last Updated: July 27, 2006