Browsing by Author "Sadohina, Olga"

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    Sinteza și cercetarea unor copolimeri din chitosan grefați cu ftalocianină de zinc, pentru scopuri medicinale [Articol]
    (CEP USM, 2024) Popușoi, Ana; Potlog, Tamara; Bulmaga, Petru; Sadohina, Olga; Robu, Ștefan
    In the present work, we describe new copolymers of chitosan grafted with zinc aminomethylphthalocyanine, which was obtained through the mono-(o-carboxybenzamidomethyl) hydrolysis of zinc phthalocyanine at a temperature of 170-175 ℃. Copolymers of aminomethylphthalocyanine with mass contents of 10%, 20%, and 30% of H2nCH2-PCZn were successfully synthesized, and they exhibited good solubility in water and other organic solvents. The chemical structure of the copolymers was proposed through infrared molecular absorption spectroscopy. according to their optical properties in the uV-VIs region, these water-soluble copolymers can be utilized in photodynamic therapy.
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    Synthesis of chitosan grafted with aminomethyl zinc phthalocyanine for photodynamic therapy [Articol]
    (2025) Robu, Ștefan; Potlog, Tamara; Bulimestru, Ion; Lungu, Ion; Sadohina, Olga; Druța, Alexandrina; Bulmaga, Petru; Guțu, Iacob
    This paper reports the synthesis of a substituted aminomethyl zinc phthalocyanine (AmPcZn) and its covalent grafting onto chitosan via an ethyl chloroformate-mediated reaction. Chitosan-based copolymers containing 10%, 20%, 30%, and 60% (w/w) AmPcZn were successfully obtained. The chemical structure of the synthesized AmPcZn was confirmed by 1H-NMR spectroscopy and elemental analysis, which were consistent with the expected molecular composition. The grafting reaction and structural integrity of the resulting copolymers were investigated using Fourier-transform infrared (FTIR) and UV-Vis spectroscopies. FTIR spectra revealed characteristic amide and carbonyl stretching bands, confirming covalent bond formation between chitosan and AmPcZn. UV-Vis measurements showed a concentration-dependent increase in absorbance and a typical splitting of the Q-band with band at 605 nm and 715 nm, indicating the successful incorporation of the phthalocyanine moiety into the polymeric matrix.