A novel class of xanthene dyes with chemically linked UV absorber molecule and their photophysical properties

In this paper, we prepared a new class of chemically linked UV absorber XU2 & XU3, and their photophysical, chemical properties and substrate durability were investigated. Spectroscopic behavior at various solvent and pH levels for this dye solution has been evaluated. Successfully designed an open ring form of xanthene moiety, linked a UV absorber to it, and made XU2 & XU3 that have shown good absorbance and emission band maxima at all solvents and pH mediums. Further, the found UV-Vis absorbance band maxima (lambda(max)), PL emission maxima (lambda(em)), molar extinction coefficient (epsilon(max)) and Stokes shifts (delta nu ST) when compared to commercially available dye 1. The synthesised XU2 & XU3 have shown brilliant results from exposed UV light at irradiation processing time, due to the light energy passes through the molecule by keto-enol tautomerisation between phenolic hydrogen and carbonyl carbon like a six-member ring. So it can be acted as radioless behaviour in the visible region, and it can relax the energy without any assistance. Hence, the UV absorber has protected the compound like a UV Resistance.

Automated summary

In this paper, a new class of chemically linked UV absorber XU2 & XU3 was prepared and their photophysical, chemical properties and substrate durability were investigated. The synthesized XU2 & XU3 showed good absorbance and emission band maxima at all solvents and pH mediums, making them potential UV protectants.