Fluorescence and nonlinear optical properties of non-aggregating hexadeca-substituted phthalocyanine

Abstract

Highly non-aggregating hexadeca-substituted phthalocyanine (Pc) complexes were prepared and their fluorescence and nonlinear optical properties were studied. Three visible fluorescence bands were observed when the Pc complexes were excited at 355 nm and found to be concentration dependent. They are attributed to the optical transitions S 2 → S 0 at 415 nm, T 2 → T 1 at 630 nm, and S 2 → S 1 at 755 nm. Nonlinear absorptive and refractive effects were measured with the help of Z-scan technique. Saturation absorption was observed at 632.8 nm where the nonlinear absorption coefficient is found to be very large ( β = −2.8 × 10 −2 cm/W) and the refractive nonlinear coefficient γ = −9.5 × 10 −11 cm 2/W. In the transparency domain at 532 nm, reverse absorption saturation is observed and β and γ are found to be 17.5 and 15.5 times smaller, respectively. Optical limiting performances are measured in the absorption and transparency domains. Purely refractive-based optical limiting at 632.8 nm is found to have a threshold of 0.16 kW/cm 2, lower than the reverse absorption saturation and refractive-based optical limiting of 0.90 kW/cm 2 at 532 nm.