AI Article Synopsis
- The study investigates the photophysical properties of various bis(arylydene)cycloalkanone dyes using quantum chemistry, focusing on how different donor substituents affect these properties.
- The findings reveal that structural changes, particularly in the cyclohexanone moiety, disrupt conjugation and lead to non-linear changes in luminescence and relaxation behaviors.
- The relationship between the energy levels of the dyes and their ability to relax via fluorescence or isomerization is influenced by the substituents' donor capacity and the geometry of the excited states.
Article Abstract
Photophysical properties of a series of bis(arylydene)cycloalkanone dyes with various donor substituents are studied using quantum chemistry. Their capacity for luminescence and nonradiative relaxation through isomerization is related to their structure, in particular, to the donor capacity of the substituents and the degree of conjugation due to the central cycloalkanone moiety. It is shown that cyclohexanone central moiety introduces distortions and disrupts the conjugation, thus leading to a nonmonotonic change in their properties. The increasing donor capacity of the substituents causes increase in the HOMO energy (rise in the oxidation potential) and decrease in the HOMO-LUMO gap, which results in the red shift of the absorption spectra. The ability of the excited dye to relax through fluorescence or through isomerization is governed by the height of the barrier between the Franck-Condon and S1-S0 conical intersection regions on the potential energy surface of the lowest π-π* excited state. This barrier also correlates with the donor capacity of the substituents and the degree of conjugation between the central and donor moieties. The calculated fluorescence and isomerization rates are in good agreement with the observed fluorescence quantum yields.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10488151 | PMC |
| http://dx.doi.org/10.3390/ijms241713362 | DOI Listing |
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