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Electrochemical properties of Robson type macrocyclic dicopper(II) complexes

Publication . Alegria, Elisabete; Anbu, Sellamuthu; Martins, Luisa; Pombeiro, Armando

The redox properties of the 1,10-phenanthroline containing Robson type symmetrical macrocyclic dicopper(II) complex [Cu2L(H2O.phen)2](ClO4)2 1 (L = μ-11,23-dimethyl-3,7,15,19-tetraazatricyclo-[19.3.1.18 19,13,21] he p t a c o s a-1(24) , 2, 7, 9, 11, 13(26), 14, 19, 21(25), 22-decaene-25,26-diolate) and of its dicopper(II) precursor [Cu2L(H2O)2](ClO4)2 2 have been investigated by cyclic voltammetry and controlled potential electrolysis in different organic solvents. They exhibit two consecutive reversible one-electron reductions assigned to the CuIICuII ® CuICuII ® CuICuI cathodic processes. The results suggest that, in solution, phenanthroline does not coordinate to the metal in complex 1, but its H-bonding interaction with the water ligands can be preserved.

2015Journal article

Restricted access

Evaluation of cell toxicity and DNA and protein binding of green synthesized silver nanoparticles

Publication . Da Costa Ribeiro, Ana Paula; Anbu, S; Alegria, Elisabete; Fernandes, Alexandra; Baptista, Pedro; Mendes, Rita; Matias, A. S.; Mendes, M.; Guedes Da Silva, M. Fátima C.; Pombeiro, Armando

Silver nanoparticles (AgNPs) were prepared by GREEN chemistry relying on the reduction of AgNO3 by phytochemicals present in black tea extract. AgNPs were fully characterized by transmission electron microscopy (TEM), ultraviolet-visible spectroscopy ((UV-vis)), X-ray diffraction (XRD) and energy dispersive absorption spectroscopy (EDS). The synthesized AgNPs induced a decrease of the cell viability in a dose-dependent manner with a low IC50 (0.5 +/- 0.1 mu M) for an ovarian carcinoma cell line (A2780) compared to primary human fibroblasts (IC50 5.0 +/- 0.1 mu M). The DNA binding capability of CT (calf thymus) DNA was investigated using electronic absorption and fluorescence spectroscopies, circular dichroism and viscosity titration methods. Additionally, the AgNPs strongly quench the intrinsic fluorescence of BSA, as determined by synchronous fluorescence spectra.

2018-05Journal article

Open access