The Effect of Bulky Substituents on Two π-Conjugated Mesogenic Fluorophores. Their Organic Polymers and Zinc-Bridged Luminescent Networks.
Rosita DianaBarbara PanunziSimona ConcilioFrancesco MarrafinoRafi ShiklerTonino CarusoUgo CarusoPublished in: Polymers (2019)
From a dicyano-phenylenevinylene (PV) and an azobenzene (AB) skeleton, two new symmetrical salen dyes were obtained. Terminal bulky substituents able to reduce intermolecular interactions and flexible tails to guarantee solubility were added to the fluorogenic cores. Photochemical performances were investigated on the small molecules in solution, as neat crystals and as dopants in polymeric matrixes. High fluorescence quantum yield in the orange-red region was observed for the brightest emissive films (88% yield). The spectra of absorption and fluorescence were predicted by Density Functional Theory (DFT) calculations. The predicted energy levels of the frontier orbitals are in good agreement with voltammetry and molecular spectroscopy measures. Employing the two dyes as dopants of a nematic polymer led to remarkable orange or yellow luminescence, which dramatically decreases in on-off switch mode after liquid crystal (LC) order was lost. The fluorogenic cores were also embedded in organic polymers and self-assembly zinc coordination networks to transfer the emission properties to a macro-system. The final polymers emit from red to yellow both in solution and in the solid state and their photoluminescence (PL) performance are, in some cases, enhanced when compared to the fluorogenic cores.
Keyphrases
- density functional theory
- solid state
- energy transfer
- molecular dynamics
- quantum dots
- room temperature
- oxide nanoparticles
- light emitting
- single molecule
- drug delivery
- water soluble
- aqueous solution
- photodynamic therapy
- mass spectrometry
- sensitive detection
- atomic force microscopy
- ionic liquid
- high resolution
- carbon nanotubes