The group, co-led by Dr. Ingo Salzmann and Prof. Norbert Koch, had previously experimented with and already modelled other systems to learn how
doping organic semiconductors affects their electronic structure and thus their conductivity.
«
Doped organic semiconductors explored.»
Not exact matches
«It is important to understand the fundamental processes involved in the molecular electrical
doping of
organic semiconductors more precisely,» explains Salzmann, continuing: «If we want to successfully employ these kinds of materials in applications, we need to be able to control their electronic properties just as precisely as we customarily do today with inorganic
semiconductors.»
Oligothiophene (4T) and polythiophene (P3HT), two typical
organic semiconductors, can be
doped with a second type of molecule such as a strong electron acceptor (F4TCNQ) for example to control the electrical conductivity.
HCharge transport in
organic semiconductors: influence of processing and doping (SEMICONDUCTORS AN
semiconductors: influence of processing and
doping (
SEMICONDUCTORS AN
SEMICONDUCTORS AND NANODEVICES)