4.6 Article

Cationic tetraphenylethylene-based AIE-active acrylonitriles: investigating the regioisomeric effect, mechanochromism, and wash-free bioimaging

Journal

JOURNAL OF MATERIALS CHEMISTRY C
Volume 11, Issue 18, Pages 5987-5994

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d2tc05266k

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We synthesized cationic regioisomeric acrylonitriles with aggregation-induced emission (AIE) properties by conjugating tetraphenylethylene at different ortho/meta/para positions. The regioisomerism significantly influenced their photophysical characteristics and solid-state intermolecular interactions. These AIE luminogens showed enhanced fluorescence behavior in the solid state compared to solution, with o-TPE-ANPy(+) and m-TPE-ANPy(+) emitting yellow light and p-TPE-ANPy(+) emitting red-shifted light. Additionally, m-TPE-ANPy(+) and p-TPE-ANPy(+) displayed higher fluorescence enhancements with increasing viscosity than o-TPE-ANPy(+). Lastly, o-TPE-ANPy(+) was successfully applied for reversible mechanochromic performance and wash-free imaging of mitochondria. These findings contribute to a better understanding of the structure-property relationships in fluorescent regioisomers.
Developing regioisomeric organic fluorescent materials with tunable photophysical properties is particularly important in diverse applications. Here we synthesized three cationic regioisomeric aggregation-induced emission (AIE)-active acrylonitriles (o-TPE-ANPy(+), m-TPE-ANPy(+), and p-TPE-ANPy(+)) by conjugation with tetraphenylethylene at different ortho/meta/para positions. The regioisomerism remarkably impacted their photophysical characteristics and solid-state intermolecular interactions. The regioisomeric AIE luminogens (AIEgens) exhibited faint emissions in solution but boosted fluorescence behaviors in the solid state. o-TPE-ANPy(+) and m-TPE-ANPy(+) showed similar yellow solid-state emissions with a fluorescence quantum yield (QY) of 14.3% and 1.8%, respectively. However, due to the strong intermolecular charge transfer effect, p-TPE-ANPy(+) exhibited a red-shifted solid-state emission of 616 nm (QY of 17.2%). In addition, m-TPE-ANPy(+) and p-TPE-ANPy(+) exhibited larger fluorescence enhancements toward viscosity than o-TPE-ANPy(+). Moreover, o-TPE-ANPy(+) was applied for achieving reversible mechanochromic performance with fluorescence changing from yellow to orange. Further use of these biocompatible AIEgens for wash-free and light-up imaging of mitochondria was successfully demonstrated. These interesting results facilitate a better understanding of the structure-property relationships in fluorescent regioisomers.

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