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Materials Sciences
Prof. Cuniberti has his research sights firmly set on These core skills and transfer activities are situated in
complex hierarchical nano and biomaterials. Through the following areas:
simulative and experimental approaches – not to
mention the importance of networking in Dresden of a ― Novel biosensors: innovative concepts are well on
multitude of skills from materials science, life science and their way to commercialization (e.g. in one of the
data science – research on a wide variety of materials spin-offs, SmartNanotubes Technologies) or are
systems and nanoelectronic devices is being conducted moving in the direction of ultrafast sensors for the
in exactly the right place. detection of coronaviruses in aerosols or in artificial,
ultrasensitive electronic noses.
― Environmental nanotechnology: multifunctional
biomaterials and nanomaterials enable the reme-
diation of contaminated wastewater or efficient
energy conversion or storage.
― Rational material design: Materials and structures
are designed by analyzing extremely large amounts
of data and identifying correlations so that they
become a perfect fit for defined applications.
Left: Prof. Cuniberti with the demonstrator of a novel, fully integrated
multiplex biosensor system / Image: Steffen Füssel
Right: Graphene Nanoribbons (GNRs) for future nanoelectronics and
cooperation partners and network / Image: DCIM
CONTACT
Dresden Center Prof. Gianaurelio Cuniberti
for Intelligent Chair of Materials Science and
Materials
Nanotechnology // TU Dresden
✉ gianaurelio.cuniberti@tu-dresden.de
26 nano.tu-dresden.de/gc/
