Imagine being able to rapidly identify tiny biological molecules such as DNA and toxins using less than a drop of salt water in a system that can fit on a microchip. It’s closer than you might believe, say a team of researchers at the National Institute of Standards and Technology (NIST). 
DNA sieve : Nanoscale pores can be tiny analysis labs
July 13, 2007 · Leave a Comment
Categories: Biology · Biotechnology · DNA · nanotech · nanotechnology
Brightening prospects of using fluorescent nanotubes in medical applications
July 13, 2007 · Leave a Comment
In a way, nanotubes are nature’s smallest candles. These tiny tubes are constructed from carbon atoms and they are so small that it takes about 100,000 laid side-by-side to span the width of a single human hair. In the last five years, scientists have discovered that some individual nanotubes are fluorescent. That is, they glow when they are bathed in light. Some glow brightly. Others glow dimly. Some glow in spots. Others glow all over. Until now, this property has been largely academic. But researchers from the Vanderbilt Institute of Nanoscale Science and Engineering (VINSE) have removed an obstacle that has restricted fluorescent nanotubes from a variety of medical applications, including anti-cancer treatments.
Categories: Biology · Biomedical · Medical · Nanotubes · nanotech · nanotechnology
Silicon nanowires upgrade data-storage technology
July 13, 2007 · Leave a Comment
Scientists at the National Institute of Standards and Technology (NIST), along with colleagues at George Mason University and Kwangwoon University in Korea, have fabricated a memory device that combines silicon nanowires with a more traditional type of data-storage. Their hybrid structure may be more reliable than other nanowire-based memory devices recently built and more easily integrated into commercial applications.
Categories: Electronics · Nanowires · nanotech · nanotechnology
Researchers show how to make polymeric micro- and nanoparticles
July 13, 2007 · Leave a Comment
Researchers in the College of Engineering at UC Santa Barbara have discovered how to make polymeric micro- and nanoparticles in a wide variety of different shapes and sizes using commonly-available lab chemicals and equipment. Knowing how to create these particles in the average laboratory environment will facilitate further discovery, as the particles are essential to understanding the role of shape in particle function. Their research is published in today’s online edition of the Proceedings of the National Academy of Sciences.
Categories: Nanoparticles · nanotech · nanotechnology
