Environment effect on the optical and photophysical investigation of Al(III)Porphyrins doped hybrid borate glasses

Hybrid borate glasses containing a series of Al(III)Porphyrins were prepared by rapid melt quench technique at 230 °C. The hybrid glass samples were characterized by X-ray diffraction, optical absorption, steady state and time resolved fluorescence emission. Upon exposure to UV light at 260 nm, the glass samples exhibit strong blue emission and red emission at 365 nm. The appearance of large stokes shift (Δυ) and enhanced S2 → S0 emission at ∼495 nm indicates that structure of Al(III)Porphyrins were inherently modified in glass matrix. Time resolved fluorescence of the hybrid glasses shows three exponential decay with τ1 = 0.11–0.59 ns, τ2 = 3.13–3.95 ns and τ3 = 8.13–9.56 ns. In the present study, we investigate the influence of glassy environment on the photophysical properties and the structure of Al(III)Porphyrins in borate glass was modeled through DFT calculations.

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• Al(III)Porphyrins doped hybrid borate glasses were prepared by rapid melt quench technique.
• Upon exposure to UV light at 260 nm, the glass samples exhibit strong blue emission and red emission at 365 nm.
• Enhanced S2 → S0 emission with large stokes shift.
• Identification of different structure of Al(III)Porphyrin in borate glass.