Synthesis of phthalocyanines having thio-alkyl substituents at non-peripheral positions and their photochemical and photophysical properties
Journal: Journal of Medicinal and Chemical Sciences (Vol.2, No. 2)Publication Date: 2019-04-01
Authors : keiichi sakamato; Yuma Sakaguchi; Syota Watabiki; Yumiko Igarashi; Tomoe Komoriya; Satoru Yoshino;
Page : 64-70
Keywords : Phthalocyanines; Thio-alkyl substituents; Singlet oxygen; PTDF method; Photodynamic therapy of cancer;
Abstract
Phthalocyanines possess similar structure of natural chromophore porphyrins. The phthalocyanines are known to utilize in important functional colorants for many fields. The phthalocyanines are especially expected to use photosensitizers for both dye-sensitized solar cells and photodynamic therapy of cancer. In the present study, novel non-peripheral substituted thio-alkyl zinc phthalocyanines were synthesized in order to develop second-generation photosensitizer for photodynamic therapy of cancer.In order to evaluate the influence of heteroatom existence and chain length, synthesized non-peripheral substituted thio-alkyl phthalocyanines were reported photoexcited triplet lifetime using laser-flash photolysisand singlet oxygen quantum yieldsby 1,3-diphenylbenzofuranemethod. Of synthesized non-peripheral substituted phthalocyanines, ultraviolet-visible spectra showed around 780 nm, photoexcited triplet lifetimes were estimated around 1 as and singlet oxygen quantum yields. It is thought that synthesized non-peripheral hetero-alkyl substituted phthalocyaines had enough ability for photodynamic therapy of cancer.
Other Latest Articles
- Curcumin and Curcumin-based derivatives as anti-cancer agents: Recent Nano-Synthetic Methodologies and Anti-cancer Therapeutic Mechanisms
- Fe3O4 magnetic nanoparticles (Fe3O4 MNPs): A magnetically reusable catalyst for synthesis of Benzimidazole compounds
- Magnetic Nano Cobalt Ferrite: An efficient recoverable catalyst for synthesis of 2,4,5-trisubstituted imidazoles
- Validation of Sigma I Receptor Occupancy with Antipsychotic Ligands: A Molecular Perspective
- Solvation Parameters for The Interaction of HgCl2 with Valporic Acid (VaA) in KNO3 Using Silver Working Electrode (Cyclic Voltammetry)
Last modified: 2019-03-21 05:41:09