Effect of Connecting Units on Aggregation-Induced
Emission and Mechanofluorochromic Properties of Isoquinoline Derivatives
with Malononitrile as the Terminal Group
Two
isoquinoline derivatives IQ-BIM and IQ-BM with a terminal malononitrile unit, in which the double bond and
single bond are used as the connecting units, respectively, are obtained
simultaneously by the reaction of an isoquinoline derivative with
malononitrile in the presence of a catalytic amount of triethylamine.
The different connecting units show an important effect on their photophysical
properties. IQ-BIM with an acceptor−π–acceptor
structure exhibits an obvious aggregation-induced emission (AIE) phenomenon
in the tetrahydrofuran–water mixed solvent owing to the restriction
of intramolecular rotation but no obvious solvatochromic property,
whereas IQ-BM with a donor−π–acceptor
structure shows obvious solvatochromic and dual-state emission properties,
and its emissions in the mixtures are mainly dominated by the intramolecular
charge transfer effect. This result indicates that the existence of
double bonds is beneficial to the occurrence of the AIE phenomenon.
Although both these compounds exhibit outstanding mechanofluorochromic
(MFC) activities through the crystalline-to-amorphous transition,
the red shift of the fluorescence spectrum of IQ-BIM is
attributed to the increased molecular conjugation, whereas that of IQ-BM is due to the generation of the excimers induced by
the π–π interactions. Moreover, the former displays
a higher contrast MFC phenomenon than the latter due to the looser
stacking arrangement. This work gives important reference values for
understanding the influence of the connecting units on the photophysical
properties of fluorescent materials.