Theoretical and experimental spectroscopic investigation of new polymethine donor-π-acceptor cyanine dyes: Synthesis, photophysical, and TDDFT studies

Abstract

New series of polymethine cyanine dyes with different length of π-chain have been synthesized and characterized. These new dyes are based on D-π-A architecture with long π-electron systems. The UV–vis/emission spectral studies showed that the dyes are absorbed in the region of λmax (485–570) nm and emitted at (540–600) nm. This makes these dyes favorable for the detection of biological and chemical analytes. Their electron cloud delocalization in HOMO/LUMO levels were studied by DFT using Gaussian 09 software. DFT results reveal that the dyes showed effective charge separation in its molecular orbitals levels, which reflected in its ICT behavior. Time-dependent density functional theory (TD-DFT) were applied to theoretically explored the first excitation energy (E0-0) of these dyes which in high compatibility with experimental results with an accuracy of 0.1–0.3 eV. This approach has been successfully applied to describe the great effect of π-conjugation length and substituents of chromophore on the variations of maximum absorption and excitation energy of the dyes.