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IBM is mastering “printing” with nanoparticles

The tiniest picture ever printed could herald an era of ultra-miniature nanowires, biosensors, and chip optics of the future. IBM researchers collaborate with ETH Zurich scientists to create a new, efficient and accurate nanoscale “printing” technique.

The method that allowed scientists to arrange individual nanoparticles according to their design, it is argued, could give impetus to the development of biological sensors; subminiature lenses that will conduct light inside optical microcircuits; and the production of nanowires for the computer chips of the future.

The new tool opens up great opportunities for industries such as biomedicine, electronics and computing, providing an efficient way to manipulate particles as small as 100 nm.

Until now, the technique for producing such particles has been based on the formation of a larger piece of material. In contrast, printing makes it possible to very efficiently obtain finished particles on the surface and allows you to combine materials of different types in one process: metals, polymers, semiconductors and oxides.

For the first time, researchers have managed to print 60 nm particles. This is about a hundred times smaller than the red blood cells of human blood. Single-particle printing allows you to create a wide variety of patterns – from simple lines to complex images. If you translate the resolution of these “pictures” to the resolution of ordinary printing, you get a value of 100,000 dpi. Recall that offset printing today operates with values ​​of no more than 1500 dots per inch.

To demonstrate the possibilities of the new technique, a painting of the 17th century was chosen, depicting the sun, which, as you know, served as the designation for gold among alchemists. It is highly significant that the painting was printed from approximately 20,000 gold nanoparticles.

It is still very far from the practical use of the development, but the demonstration of the technique is important as confirmation of the fundamental possibility of applying research outside the laboratories. Scientists can already print lines, 2D planar arrays and arbitrary images. Work is planned for the future to improve the accuracy of the arrangement of particles and reduce their size.

Source: IBM

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