White-light-emitting diodes are energy
efficiency replacement of
conventional lighting sources. Herein, we report the luminescent behavior
of three simple cyanostilbenes with triphenylamine-donating groups
bearing different electron-withdrawing groups (phenyl, pyridyl, and
p
-nitrophenyl) in a common donor (D)−π–acceptor
(A) α-cyanostilbene construct along with their thermal and electrochemical
properties. The density functional theory (DFT) studies reveal that
aggregation-induced emission characteristic feature of the D−π–A
dyes is inversely proportional to the intramolecular charge transfer
(ICT) effect, that is, phenyl-and pyridyl-substituted compounds show
characteristic aggregation-induced emission in water, whereas the
ICT effect is dominant for the nitro derivative. The extent of ICT
and the solvatochromic emission shifts, from blue to red, depend on
the strength of the electron-withdrawing group. White luminescence
and tunable emission colors are obtained by careful admixtures of
these cyanostilbenes bearing triphenylamines. The results rationalized
through DFT and time-dependent DFT calculations follow a consistent
trend with the energy levels measured from the electrochemical and
optical studies. Thermogravimetric analysis and differential scanning
calorimetry studies showed excellent thermal stability of the compounds.
The scanning electron microscopy and dynamic light scattering measurements
were performed to reveal the formation of aggregates. This strategy
involving synthetically simple and structurally similar molecules
with different emission properties has potential applications in the
fabrication of multicolor and white-light-emitting materials.
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