ABSTRACT
The stability constants of the lanthanide ions [La, Ce, Pr, Nd, Sm, Gd, Dy, Er and Yb]; Sc, Y, Th and UO22+ ions with some hydroxy nitrosocoumarins were determined in 40% ethanol-water mixture at 25 degree and 0.1 ionic strength. It was found that the stability constants of the complexes increased with increasing ionic radii, from Y to Sm. The so called Gadolinium break was observed with heavier lanthanides. Sc and Th complexes possessed the highest stability constants. The potentiometric measurements and conductimetric titrations showed that 1: 1 and 1: 2 [M: L] complexes were invariably formed
Subject(s)
Metals, Rare Earth/chemistry , Hydroxides/chemistry , Nitroso Compounds/chemistry , Scandium/chemistry , Yttrium/chemistry , Thorium/chemistry , Uranium/chemistry , Chelating Agents/chemistryABSTRACT
The ionization constants of a homologous series of 1-[0- carboxyphenyl]-3-acetyl-5-arylformazans have been determined potentiometrically. The substituent effect on the pK values was discussed. Furthermore, the stability constants of the formazan chelates with trivalent La, Gd and Er ions were determined. Linear relation between sigma pK of the formazans and log K of their chelates was established. The chelation affinities of formazans towards La, Gd, Er were discussed in relation to the metal ionic size, basicity and number of donor atoms in the formazan molecule. The 1: 2 [M: L] solid chelates were isolated and characterized by several techniques as ML HL.nH2O where HL = formazan, M = La, Gd or Er ion and n = 0-6