Abstract

A new series of non-aqueous phthalocyanines having 3,4,5-trimethoxy phenyl group at peripheral positions in which the central cavity possessing Cu(II), Zn(II), and without metals has been synthesized, and its absorption, fluorescence (steady-state and excited state lifetimes), electrochemical, and third-order nonlinear optical (NLO) properties were evaluated. Absorption studies data suggest that all three phthalocyanines obey Beer–Lambert’s law, and the redox properties indicate that both oxidation and reduction reactions are macrocyclic centered. The singlet quantum yields were measured in different solvents and were found to be in the range of 0.2–0.5 in the case of free-base, whereas it was in the range of 0.1–0.5 in zinc derivative, while the time-resolved fluorescence data revealed lifetimes of typically a few ns. The third-order NLO properties were investigated using the Z-scan technique with kilohertz (for retrieving true electronic nonlinearities) and megahertz repetition rate femtosecond pulses at 800 nm. Intensity-dependent Z-scan studies revealed robust NLO coefficients for solutions and thin films (two-photon absorption cross-sections of 9,300–57,000 GM) of these molecules suggesting a strong potential for optical switching, imaging, and optical limiting applications.

Highlights

  • In the current era of optoelectronics, nonlinear optics (NLO) and related technologies play a significant role in its evolution (Dini et al, 2016; Gounden et al, 2020; Mrinalini et al, 2021)

  • The cyclo tetramerization of 1 was achieved using DMF and pentanol method to get the freebase phthalocyanine (TmPc) and the corresponding metallo derivatives were achieved by using diazabicyclo[5.4.0] undec-7-ene (DBU), pentanol with

  • We state that we have synthesized a new series of non-aqueous phthalocyanines possessing the 3,4,5trimethoxyphenyl group at peripheral positions

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Summary

Introduction

In the current era of optoelectronics, nonlinear optics (NLO) and related technologies play a significant role in its evolution (Dini et al, 2016; Gounden et al, 2020; Mrinalini et al, 2021). Phthalocyanines are human-made compounds which have a wide range of advantages in diversified areas such as sensor technology, catalysts, electrochromism, liquid crystals, photodynamic therapy, and energy storage devices to name a few (Gregory, 2000; Zagal et al, 2010; Tuncel et al, 2012; Kuzmina et al, 2019; Buyukeksi et al, 2020; Kumar et al, 2021b; Halaskova et al, 2021) Because of their electronic delocalization, innumerable properties arise which make them of great potential in various fields of science and technology. The incorporation of alkyl or alkoxy groups as well as metals in its central cavity affects its optical and its redox reactions

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