The recently published National Geographic special issue titled “100 Scientific Discoveries That Changed the World,” leads off with a research program that began in 1997 when we funded a Northwestern University researcher by the name of Chad Mirkin. AFOSR took a chance on a process called Dip-Pen Nanolithography (DPN), and what Dr. Mirkin himself noted, was “a far out idea and a paradigm shift in scanning probe microscopy,” but indeed, proved to be an idea that changed the world.
Highlighted in the Journal of Science, January 1999, DPN is a technology that builds nanoscale structures and patterns by drawing molecules directly onto a substrate. This process was achieved by employing an Atomic Force Microscope (AFM), the tip of which has the innate capability to precisely place items and draw lines at the nanoscale level. The AFM was basically an extremely small paint brush. Mirkin’s fundamental contribution was recognizing that it could be used to print structures on a surface through materials, rather than through an energy delivery process–the latter being the approach taken by all previous researchers.
DPN has led to the development of powerful new nanofabrication tools, ways of miniaturizing gene chips and pharmaceutical screening devices, methods for making and repairing photomasks used in the microelectronics industry, and high-throughput methods for discovering structures important in biology, medicine, and catalysis. Since 1997 Dr. Mirkin has authored over 480 manuscripts, holds over 440 patents and applications, and is the founder of four companies, which specialize in commercializing nanotechnology applications.
Professor Chad Mirkin recently spoke at two AFOSR events on the following topics A Chemist’s Approach to Nanofabrication: Towards a “Desktop Fab” and Nanotechnology: Moving Beyond Small Thinking.
A Chemist’s Approach to Nanofabrication: Towards a “Desktop Fab”
Nanotechnology: Moving Beyond Small Thinking