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9/5/2008 12:10:41 AM
NSF-funded Rice study will trace path of nanomaterials

Working to ensure the safe use of nanomaterials is the basis of a new Rice study funded by the National Science Foundation.

Led by Pedro Alvarez, the George R. Brown Professor and chair of the Civil and Environmental Engineering Department, and Vicki Colvin, the Pitzer-Schlumberger Professor of Chemistry and director of the Center for Biological and Environmental Nanotechnology, the study will trace tagged nanoparticles to increase understanding of how they move through the environment and what impact they may have on the health and function of natural systems.

With industrial-scale production of materials that use nanoparticles on the near horizon, Alvarez said now is the time to address concerns over their safety.

"Nanotechnology offers tremendous potential to enhance our quality of life, from improving the performance of commercial products, to enhanced diagnosis and treatment of disease, to refining water and cleaning up the environment," he said.

Nanotechnology, said Alvarez, "is full of initially promising qualities, but you have to consider the potential for environmental damage. For example, look at DDT. Hans Mueller won the Nobel Prize in 1948 for using DDT to fight malaria, but now we know the environmental damage impact."

He said the study will take a proactive approach to the potential dangers of nanoparticles, a subject that has found its way into the popular press in recent years. "When you have an increase in the production of nanomaterials, I can assure you some will enter the environment through waste or the manufacturing process. We're focusing on fullerenes, and this grant is aimed at trying to understand their impact."

"One aspect is to look at what nanomaterials do to, or in, the environment," he said. But Alvarez and Colvin are turning the tables to see what the environment does to nanomaterials. "When you alter the structure of fullerenes, via bacterial means or fungi or enzymes, you may also affect their toxicity or reactivity."

John Fortner, a Rice research scientist whose thesis was on fullerene behavior in water, said fullerenes made with 14C, a mildly radioactive carbon isotope, were manufactured for the study. The tagged fullerenes can be tracked easily as they are altered by microbes, specifically fungi, and even monitored if they are completely broken down into carbon dioxide molecules.

"Fungi are amazing in their tolerance and what they can degrade," said Fortner. "It is amazing what fungi can break down biochemically, from pollutants to wood, even things like tires and nylon."

It's how fungi change the structure of the fullerene molecules, if at all, that's of interest, and how that material is released back into the environment. "In what form will they reach an organism, and will that form be detrimental? That's a tough question to answer," he said.

The good news, said Alvarez, is that "we'll be able to know for sure where they end up. We also plan to study whether this nanomaterial bioaccumulates and whether it can be transported through the food chain.

"There are many critical gaps in determining how dangerous nanomaterial is," he said. "So our strategy is to inform safety by design, safe disposal, and safe manufacturing and handling."

Other Headlines from National Science Foundation ...
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 - Surface Enhanced Raman Spectroscopy (SERS) reveals invisible colors in art masterpieces
 - NSF Announces New Awards That Will Investigate More Efficient Ways to Harvest Sunlight to Make New Biofuels and Biomaterials

Other Headlines from Rice University ...
 - Material adapts to strain - Rice University lab creates self-strengthening nanocomposite
 - Rice University unveils state-of-the-art physics research facility
 - 'Pruned' microchips are faster, smaller, more energy-efficient
 - Rice University researchers create single-atom lithography in graphene
 - Rice University lab uses ruthenium complexes to dissolve nanotubes, add functionality

More Research Headlines ...
 - Experiments Settle Long-Standing Debate about Mysterious Array Formations in Nanofilms
 - "Critical baby step" taken for spying life on a molecular scale
 - Seeing an atomic thickness
 - First-ever sub-nanoscale snapshots of renegade protein in Huntington's Disease
 - Karlsruhe Invisibility Cloak: Disappearing Visibly

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