Polarographic and spectroscopic studies of the Cu(II) glutathione system in basic aqueous solutions

PMR and absorption spectra have been used to estabiish the structure of N~(r~)-~ut~~bione complexes in aqueous solutions -at various pH values. Equilibria exist between a few octabedra1 and square phnar complexes in soiution. At pH above I I the most stable complex is formed by the coordination of t

The coorchnated systems (Cu(II)-neutral L-lsoleucme and Cu(II)-L-lsoleuanate Ion have been sturhed polarographlcally, m aqueous medmm, p=l OM (NaClO,) and 25kO l"C, and the stability constants of the complexes ICuI1'+ (/311, =23), ICuI,1'+ (&= 180) and JCu(I-),I (jloz= 1 8 10") have been determined

The reduction of cobalt(I1) at the dme has been studied in water and aqueous mixtures of formamide, dimethylformamide and acetonitrile. In water the study was carried out in various complexing and noncomplexing supporting electrolytes. The kinetic parameters have been calculated by Koutecky's method

Mid infrared, far-infrared and Raman spectroscopic studies, combined with force field analyses, were performed for the hydrated platinum(II) and palladium(II) ions and cis-diammineplatinum(II) complex in acidic aqueous solutions. Simplified Density Functional Theory (DFT) calculations were made for

The structure of noncrystalline sucrose in the amorphous, solid state and in aqueous solution was investigated. Differences of structure of amorphous solid samples, the quenched-melt, and freeze-dried sucrose, are revealed by differential thermal analysis (d.t.a.) and from the Fourier-transform infr