posted on 2021-08-06, 14:44authored byJasveer
S. Dhindsa, Francis L. Buguis, Michael Anghel, Joe B. Gilroy
π-Conjugated
molecules with acceptor-donor-acceptor (A-D-A)
electronic structures make up an important class of materials due
to their tunable optoelectronic properties and applications in, for
example, organic light-emitting diodes, nonlinear optical devices,
and organic solar cells. The frontier molecular orbital energies,
and thus band gaps, of these materials can be tuned by varying the
donor and acceptor traits and π-electron counts of the structural
components. Herein, we report the synthesis and characterization of
a series of A-D-A compounds consisting of BF2 formazanates
as electron acceptors bridged by a variety of π-conjugated donors.
The results, which are supported by density functional theory calculations,
demonstrate rational control of optoelectronic properties and the
ability to tune the corresponding band gaps. The narrowest band gaps
(EgOpt = 1.38 eV and EgCV = 1.21 eV) were observed when BF2 formazanates and benzodithiophene
units were combined. This study provides significant insight into
the band gap engineering of materials derived from BF2 formazanates
and will inform their future development as semiconductors for use
in organic electronics.