Novel Rigidochromic and Anti-Kasha Dual Emission Fluorophores Based on D-π-A Dyads as the Promising Materials for Potential Applications Ranging from Optoelectronics and Optical Sensing to Biophotonics and Medicine

Today we see an increasing demand for new fluorescent materials exhibiting various sensory abilities due to their broad applicability ranging from the construction of flexible devices to bioimaging. In this paper, we report on the new fluorescent pigments AntTCNE, PyrTCNE, and PerTCNE which consist...

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Bibliographic Details
Published in:International journal of molecular sciences 2023-03, Vol.24 (6), p.5818
Main Authors: Lermontova, Svetlana A, Arsenyev, Maxim V, Cherkasov, Anton V, Fukin, Georgy K, Afanasyev, Andrey V, Yudintsev, Andrey V, Grigoryev, Ilya S, Ladilina, Elena Yu, Lyubova, Tatyana S, Shilyagina, Natalia Yu, Balalaeva, Irina V, Klapshina, Larisa G, Piskunov, Alexandr V
Format: Article
Language:English
Subjects:
Aromatic compounds
Chemical compounds
Electron states
Environmental effects
Fluorescence
Fluorescent Dyes - chemistry
Fluorophores
Fullerenes
Glycerol
Internet of Things
Medical imaging
Molecular structure
Optoelectronics
Photodynamic therapy
Photoluminescence
Photons
Pigments
Polymerization
Portable equipment
Sensitivity
Solvents
Solvents - chemistry
Spectral emittance
Viscosity
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Summary:Today we see an increasing demand for new fluorescent materials exhibiting various sensory abilities due to their broad applicability ranging from the construction of flexible devices to bioimaging. In this paper, we report on the new fluorescent pigments AntTCNE, PyrTCNE, and PerTCNE which consist of 3-5 fused aromatic rings substituted with tricyanoethylene fragments forming D-π-A diad. Our studies reveal that all three compounds exhibit pronounced rigidochromic properties, i.e., strong sensitivity of their fluorescence to the viscosity of the local environment. We also demonstrate that our new pigments belong to a very rare type of organic fluorophores which do not obey the well-known empirical Kasha'rule stating that photoluminescence transition always occurs from the lowest excited state of an emitting molecule. This rare spectral feature of our pigments is accompanied by an even rarer capability of spectrally and temporally well-resolved anti-Kasha dual emission (DE) from both higher and lowest electronic states in non-polar solvents. We show that among three new pigments, PerTCNE has significant potential as the medium-bandgap non-fullerene electron acceptor. Such materials are now highly demanded for indoor low-power electronics and portable devices for the Internet-of-Things. Additionally, we demonstrate that PyrTCNE has been successfully used as a structural unit in template assembling of the new cyanoarylporphyrazine framework with 4 D-π-A dyads framing this macrocycle (Pyr CN Pz). Similarly to its structural unit, Pyr CN Pz is also the anti-Kasha fluorophore, exhibiting intensive DE in viscous non-polar medium and polymer films, which strongly depends on the polarity of the local environment. Moreover, our studies showed high photodynamic activity of this new tetrapyrrole macrocycle which is combined with its unique sensory capacities (strong sensitivity of its fluorescent properties to the local environmental stimuli such as viscosity and polarity. Thus, Pyr CN Pz can be considered the first unique photosensitizer that potentially enables the real-time combination of photodynamic therapy and double-sensory approaches which is very important for modern biomedicine.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms24065818