Washington, August 15 : The technique used in making the logo for this year's Olympics in Beijing, has used the science of nanotechnology, to produce minute lettering.
Developed by Northwestern University nanoscientist Chad A. Mirkin, and his colleagues, the new printing technique, called Polymer Pen Lithography (PPL), can write on three different length scales using only one device.
The PPL technique is a fast, inexpensive and simple way to print on the nanometer, micrometer and millimeter length scales.
The new printing method could find use in computational tools (the electronics that make up these tools), medical diagnostics (gene chips and arrays of biomolecules) and the pharmaceutical industry (arrays for screening drug candidates), among others.
Polymer Pen Lithography uses arrays of tiny pens made of polymers to print over large areas with nanoscopic through macroscopic resolution.
By simply changing contact pressure (and the amount the pens deform), as well as the time of delivery, dots of various diameters can be produced.
"We can go, in a sense, from an ultra fine point Sharpie to one with a fat tip," said Mirkin, director of Northwestern's International Institute for Nanotechnology.
"The tip of each polymer pen starts with nanometer-scale sharpness, but if we press down harder the tip flattens out. This gives us great flexibility in the structures we can produce," he added.
In the case of the Olympic logo, the researchers started with a bitmap image of the logo and uniformly printed 15,000 replicas onto a gold substrate using an "ink" of the molecule 16-mercaptohexadecanoic acid.
This took less than 40 minutes.
The logo is so small that 2,500 of them would fit on a single grain of rice.
The letters and numbers, "Beijing 2008," were generated from approximately 20,000 dots that were 90 nanometers in diameter.
Then, with more force applied to the pens, the stylized human figure and the Olympic rings were made from approximately 4,000 dots that were 600 nanometers in diameter.
As with the Olympic logo, the structures were made by making multiple printing passes with the same tool (the pen array, which has an ink reservoir).
Polymer Pen Lithography simplifies and takes the best of two existing printing techniques - the high registration and sub-50-nanometer resolution of Dip-Pen Nanolithography (DPN) and the use of a polymer stamp to transfer a pattern in microcontact printing.
The PPL method requires a dot matrix image of the structure to be printed (the Olympic logo, for example) and an atomic force microscope.