Abstract
Spectral and luminescent properties of an indotricarbocyanine dye are studied in solutions and after deposition on quartz or silicon substrates. It is found that the dye molecules self-assemble in aqueous EtOH solutions to form H*-aggregates. The absorption band of the H*-aggregates shows a hypsochromic shift of 192 nm (5291 cm–1) relative to the absorption maximum of dye monomers (706 nm) and has a full width at half maximum of 21 nm (797 cm–1). The morphology of the H*-aggregates of the indotricarbocyanine dye is studied for the first time. It is found that the aggregates are rod-like species ~10 nm high, 100 nm wide, and several micrometers long. H-aggregates with a fluorescence maximum at 560 nm and Stokes shift of 325 cm–1 in addition to non-fluorescent H*-aggregates form in aqueous EtOH solutions and are nanoparticles with a height of 1–3 nm and lateral dimensions of ~100 nm.
Highlights
Polymethine dyes (PDs) are a class of organic compounds with unique properties
absorption bands (ABs) with positions and shapes attributable to H*-aggregates were observed from an aqueous EtOH solution of one of the indotricarbocyanine dyes created at A
Studies of the spectral and luminescent properties of indotricarbocyanine dye in aqueous EtOH showed that dye dimers and H*-aggregates were present in solution
Summary
Polymethine (cyanine) dyes (PDs) are a class of organic compounds with unique properties. ABs with positions and shapes attributable to H*-aggregates were observed from an aqueous EtOH solution of one of the indotricarbocyanine dyes created at A. A long-wavelength band with a shoulder on the short-wavelength edge that was characteristic for this class of compounds was observed in absorption spectrum of the dye in aqueous EtOH (5 vol.% EtOH) at concentrations
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