posted on 2017-09-08, 18:52authored byQinqin Shi, Eric S. Andreansky, Seth R. Marder, Simon B. Blakey
Coronenediimide
(CDI) derivatives have a planar structure, a reasonably
high electron affinity, and a rigid and extended delocalized π-system.
Therefore, this core and variants thereof may be promising building
blocks for the synthesis of electron transport materials. Herein,
we have synthesized thiazole-semicoronenediimides (TsCDIs) and -coronenediimides
(TCDIs) by a two-step process from a perylenediimide (PDI) precursor.
Conditions for C–H arylation and heteroarylation of the thiazole
moiety of this core were developed and were successfully used for
the synthesis of dimer, triad, and polymeric materials. The optical
and electrochemical properties of these materials and their monomers
were examined as a function of side-chain modification and π-extension.
With their broad optical absorption and low reduction potentials,
these materials could be candidates as organic semiconductors for
applications in OFETs and as nonfullerene acceptors.