Innovations: Nano Patterning; The Nanotech Revolution; Exclusive Online Issues; by Gary Stix; 2 Page(s)

Self-assembly has become a critical implement in the toolbox of nanotechnologists. Scientists and engineers who explore the nano realm posit that the same types of forces that construct a snowflake - the natural attractions and repulsions that prompt molecules to form intricate patterns - can build useful structures - say, medical implants or components in electronic chips. So far much of the work related to self-assembling nanostructures has been nothing more than demonstrations in university laboratories. To go beyond being a scientific curiosity, these nanotech materials and techniques will have to get from benchtop to a $2-billion semiconductor fabrication facility.

Four years ago two members of the technical staff at the IBM Thomas J. Watson Research Center in Yorktown Heights, N.Y., began to contemplate how they might transform the vision of self-assembly into a practical reality. The collaborators, Charles Black and Kathryn Guarini, knew that the grand academic ambitions of making an entire set of chip circuits from self-assembly had to be set aside. Instead the best way to begin, they thought, might be to replace a single manufacturing step. "The idea was that if we could ease the burden in any of the hundreds of steps to make a chip, we should take advantage of that," Black says.