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Researchers Make Nanotech Discovery Using DNA

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WILMINGTON, Del., Dec. 4 -- A collaborative group of DuPont-led scientists have discovered an innovative way to advance electronics applications through the use of DNA that sorts carbon nanotubes.

This research in the emerging field of nanotechnology appears in the current issue of the journal Science, which is published by the American Association for the Advancement of Science. The research paper is titled "Structure-Based Carbon Nanotube Sorting by Sequence-Dependent DNA Assembly."


NANO-HUES: Unsorted nanotubes in solution appear in black (far left). Conducting ones appear pinkish, semiconducting ones greenish.

Carbon nanotubes possess excellent electrical properties that make them potential building blocks in a wide variety of nanotechnology-related electronic applications, including highly sensitive medical diagnostic devices and mini-transistors more than 100 times tinier than those found in today's microchips. When they are fabricated, however, carbon nanotubes of different electronic types randomly clump together, deterring consistent conductivity. The ability to sort and assemble carbon nanotubes allows for uniform conductivity -- enabling the applications to be realized.

Initially, DuPont Central Research & Development scientists found that single-stranded DNA strongly interacts with carbon nanotubes to form a stable DNA-carbon nanotube hybrid that effectively disperses carbon nanotubes in an aqueous solution.

As a follow-up to that initial work, a multidisciplinary team of scientists from DuPont, the Massachusetts Institute for Technology and the University of Illinois worked together to discover a new method for separating carbon nanotubes using single stranded DNA and anion-exchange chromatography. By screening a library of oligonucleotides, the team found that a particular sequence of single-stranded DNA self-assembles into a helical structure around individual carbon nanotubes. Since carbon nanotube-DNA hybrids have different electrostatic properties that depend on the nanotubes' diameter and electronic properties, they can be separated and sorted using anion exchange chromatography. The technique can be used to separate metallic carbon nanotubes from semiconducting carbon nanotubes, both which are created during nanotube production. The technique can also sort semiconducting carbon nanotubes by diameters, an important element in nanoelectronic applications.

"Wrapping of carbon nanotubes by single-stranded DNA was found to be sequence-dependent," said DuPont Central Research & Development scientist Ming Zheng. "This outstanding collaborative effort is a good example how researchers from both industry and academic institutions can work together in a multidisciplinary approach to further advance this emerging technology."

For more information, visit: www.dupont.com

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Published: December 2003
Glossary
electronics
That branch of science involved in the study and utilization of the motion, emissions and behaviors of currents of electrical energy flowing through gases, vacuums, semiconductors and conductors, not to be confused with electrics, which deals primarily with the conduction of large currents of electricity through metals.
nanotube
A nanotube, also known as a nanotubule or simply a tube-like structure, is a nanoscale cylindrical structure composed of various materials, including carbon, boron nitride, or other compounds. Nanotubes have unique physical and chemical properties due to their small size and specific atomic arrangement, making them of significant interest in various scientific and technological fields. One of the most well-known types of nanotubes is the carbon nanotube (CNT), which is composed of carbon...
carbon nanotubesDNADNA assemblyDuPontelectronicsnanotubeNews & Features

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