In the present work, a novel donor (D)–acceptor
(A) fluorophore based on indeno-pyrrole derivative (PYROMe) has been
utilized as a dual sensor for volatile acids and aromatic amines,
where sensory responses were regulated by the aggregation-induced
emission (AIE) property. The twisted structural framework of PYROMe,
confirmed by crystal study, avoids closed cofacial encounter upon
aggregation and aided with augmented rigidity via different noncovalent
interactions that ultimately ensued restricted intramolecular rotation
(RIR). Consequently, PYROMe exhibited AIE in THF/H2O mixture
along with bright solid-state emission. The accessibility of protonation
at carbonyl site and feasible HOMO energy to accept electrons from
aromatic amines during photoexcitation enabled PYROMe as a potential
dual sensor. A thin film of PYROMe was utilized for the quantitative
detection of volatile acids and aromatic amines, and the detection
limit (DL) was found to be as low as 0.77 ppm and 6.04 ppb for trifluoroacetic
acid (TFA) and aniline vapors, respectively. Beyond the established
scopes of substituted indeno-pyrroles, the present study paves the
way, for the first time, toward an AIE-driven dual-stimuli response
in indeno-pyrrole based D–A fluorophores.