Harvard scientists bend nanowires into 2-D and 3-D structures

By | October 21, 2009

Taking nanomaterials to a new level of structural complexity, scientists have determined how to introduce kinks into arrow-straight nanowires, transforming them into zigzagging two- and three-dimensional structures with correspondingly advanced functions.

The work is described this week in the journal Nature Nanotechnology by Harvard University researchers led by Bozhi Tian and Charles M. Lieber.

Among other possible applications, the authors say, the new technology could foster a new nanoscale approach to detecting electrical currents in cells and tissues.

“We are very excited about the prospects this research opens up for nanotechnology,” says Lieber, Mark Hyman, Jr. Professor of Chemistry in Harvard’s Faculty of Arts and Sciences. “For example, our nanostructures make possible integration of active devices in nanoelectronic and photonic circuits, as well as totally new approaches for extra- and intracellular biological sensors. This latter area is one where we already have exciting new results, and one we believe can change the way much electrical recording in biology and medicine is carried out.”

Lieber and Tian’s approach involves the controlled introduction of triangular “stereocenters” — essentially, fixed 120º joints — into nanowires, structures that have previously been rigidly linear. These stereocenters, analogous to the chemical hubs found in many complex organic molecules, introduce kinks into 1-D nanostructures, transforming them into more complex forms. … Lieber and Tian’s work takes the formation of 2-D nanostructures a step further by enabling the introduction of electronic devices at the stereocenters.

via Harvard scientists bend nanowires into 2-D and 3-D structures.

Leave a Reply