CL Katalyse II: D2.1/E1.1/E3.1

Future progress of our information-based society will arise from the availability of electronic,
optoelectronic, and photonic devices that exhibit functionality, size reduction, and low energy
consumption that exceed current limits. A viable approach that meets the challenges of
modern research for electronics, optoelectronics, and photonics is the rigorous exploration
and implementation of hybrid systems. Hybrid systems will enable the application of
fundamentally new quantum states and coupling regimes for information transport,
processing, and storage, using electrical charges and photons on multiple length- and timescales.
This approach requires profound understanding of the physics and chemistry of
hybrid systems. The proposed Cluster of Excellence (CoE) will perform research on hybrids
that involve conjugated carbon materials: (A) elucidating the basic mechanisms that govern
the formation of hybrid states to achieve control over their properties and function; (B)
unraveling the coupling between elementary hybrid ground and excited states, and coupling
to the environment; and (C) developing schemes for controlled interfacing and coupling of
different nanoscale hybrid structures to obtain systems with superior functionality. In the lang
term this will pave the way to enhanced information technology based on hybrid states and
systems: hybronics.
The Berlin-Brandenburg region is ideal for launching this CoE "HYBR0NICS", as the full range
of experimental and theoretical expertise for performing the demanding research tasks is
available through the involved principal investigators. The additional experts attracted
through the CoE will also enable Berlin to be established as the location worldwide for
research on hybrid systems for electronics and photonics.

Principal Investigators
Hecht, Stefan Prof. (Details) (Organic Chemistry and Functional Materials)

Participating external organizations

Financer
DFG-Exzellenzinitiative: Cluster

Duration of Project
Start date: 11/2017
End date: 12/2018

Related umbrella project
11/2017 - 12/2018

Research Areas
Natural Sciences

Last updated on 2020-01-06 at 18:00