At the Photonics West, the leading international fair for photonics
taking place in San Francisco (USA) this week, Nanoscribe GmbH, a
spin-off of Karlsruhe Institute of Technology (KIT), presents the
world's fastest 3D printer of micro- and nanostructures. With this
printer, smallest three-dimensional objects, often smaller than the
diameter of a human hair, can be manufactured with minimum time
consumption and maximum resolution. The printer is based on a novel
laser lithography method.
The 3D laser litho-graphy systems developed by Nanoscribe -- the
spin-off can still be found on KIT's Campus North -- are used for
research by KIT and scientists worldwide. Work in the area of photonics
concentrates on replacing conventional electronics by optical circuits
of higher performance. For this purpose, Nanoscribe systems are used to
print polymer waveguides reaching data transfer rates of more than 5
terabits per second.
Biosciences produce tailored scaffolds for cell growth studies among
others. In materials research, functional materials of enhanced
performance are developed for lightweight construction to reduce the
consumption of resources.
Increased Speed: Hours Turn into Minutes
By means of the new laser lithography method, printing speed is
increased by factor of about 100. This increase in speed results from
the use of a galvo mirror system, a technology that is also applied in
laser show devices or scanning units of CD and DVD drives. Reflecting a
laser beam off the rotating galvo mirrors facilitates rapid and precise
laser focus positioning. "We are revolutionizing 3D printing on the
micrometer scale. Precision and speed are achieved by the industrially
established galvo technology. Our product benefits from more than one
decade of experience in photonics, the key technology of the 21st
century," says Martin Hermatschweiler, the managing director of
Nanoscribe GmbH.
Mechanism: Two-photon Polymerization
The direct laser writing technique underlying the 3D printing method
is based on two-photon polymerization. Just as paper ignites when
exposed to sunlight focused through a magnifying glass, ultra-short
laser pulses polymerize photosensitive materials in the laser focus.
Depending on the photosensitive material chosen, the exposed or
unexposed volume only is dissolved. After a developer bath, these
written areas remain as self-supporting micro- and nanostructures.
Removing Barriers
By means of the galvo technology, three-dimensional micro- and
nanostructures can be printed rapidly and, hence, on large areas in
principle. At highest resolution, however, the scanning field is limited
physically to a few 100 µm due to the optical properties of the
focusing objective. Just as floor tiles must be joined precisely, the
respective scanning fields have to be connected seamlessly and
accurately. By the so-called stitching, areas can be extended nearly
arbitrarily.
Story Source:
The above story is reprinted from materials provided by Karlsruhe Institute of Technology.
Courtesy: ScienceDaily
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