NJIT researchers seed, heat and grow carbon nanotubes in long tubing
In less than 20 minutes, researchers at New Jersey Institute of Technology (NJIT) can now seed, heat and grow carbon nanotubes in 10-foot-long, hollow thin steel tubing.
"The work took us three years to develop and get right, but now we can essentially anchor nanotubes to a tubular wall. No one has ever done anything like this before," said lead researcher Somenath Mitra, PhD, professor and acting chair of NJIT's Dep't of Chemistry and Environmental Science. Graduate and post-doctoral students who worked on the project are Mahesh Karwa, Chutarat Saridara and Roman Brukh.
The ground-breaking method will lead to improvements in cleaner gasoline, better food processing and faster, cheaper ways to clean air and water.
The discovery was recently described in the Journal of Material Chemistry, June 14, 2006, by Mitra and his team in "Selective Self-assembly of Single Walled Carbon Nanotubes in Long Steel Tubing for Chemical Separation." Other journals featuring their work are Chemical Physics Letters and Carbon and Analytical Chemistry.
A carbon nanotube is a molecular configuration of carbon in a cylindrical shape. The name is derived in part from the tube's miniscule size. Scientists estimate nanotubes are 50,000 times smaller than a human hair.
Until recently researchers have relied on the nanotubes which researchers purchase as a powder. The nanotubes are said to have remarkable, if not almost magical, properties. For example, by simply mixing the powder with polymers or chemicals, films and composites can be made.
However, the method has drawbacks. "We have never been able to anchor the powder to a large surface, nor can we grow the nanotubes in a large device. Typically we could only produce them in minute amounts, if we used the powder substance," said Mitra. Now everything has changed.
Using a catalyst either prepared on the steel surface or enabled by a chemical deposition process, the NJIT inventors have created nanotubes which can stick to the walls of narrow or wide tubes. And, they can grow considerably larger amounts of them, making the process more attractive and viable for industrial usages.
Mitra has published more than 65 refereed articles in scholarly publications. He is the author of Environmental Chemical Analysis (CRC Press, New York, 1998) and the editor of Sample Preparation Techniques in Analytical Chemistry (John Wiley, New York, 2003). Mitra holds four patents and has made more than 130 presentations to academic peers at scholarly conferences. He received his doctorate in analytical chemistry from Southern Illinois University.
Mitra's other research interests include chemically altering carbon nanotubes, finding analytical techniques and sensors to discover low-level trace elements in air, water and soil. His projects include the development of instrumentation and methods for continuous, on-line analysis of trace levels of organic pollutants in air and water. These methods range from using gas chromatography or mass spectrometry to micro scale, lab-on-a-chip devices. His funders include the Environmental Protection Agency, Department of Defense, the National Science Foundation and others.
New Jersey Institute of Technology, the state's public technological research university, enrolls more than 8,100 students in bachelor's, master's and doctoral degrees in 100 degree programs offered by six colleges: Newark College of Engineering, New Jersey School of Architecture, College of Science and Liberal Arts, School of Management, Albert Dorman Honors College and College of Computing Sciences. NJIT is renowned for expertise in architecture, applied mathematics, wireless communications and networking, solar physics, advanced engineered particulate materials, nanotechnology, neural engineering and eLearning. In 2006, Princeton Review named NJIT among the nation's top 25 campuses for technology recognizing the university's tradition of research and learning at the edge in knowledge.
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