Determination of Stability Constants of Copper(II)-Glycine Complex in Mixed Solvents by Copper(II)-Selective Electrode

A theory for determining the heterogeneous stability constant of a metal complex system at the surface of a chemically modi®ed carbon paste electrode was developed. The proposed theory has been applied to the studies of a copper(II)-humic acids (Has) complex system. In an open circuit, copper(II) wa

The anodic stripping voltammetry (ASV) for the determination of trace-copper, present as copper(II) acetylacetonate, Cu(II)-AA, was developed in chloroform, using the differential pulse technique to strip the amalgamated copper from the hanging mercury drop electrode (HMDE). The experimental variabl

A novel copper(selective electrode was produced based on a molecular deposition technique in which water-soluble copper phthalocyanine tetrasulfonate was alternatively deposited with a bipolar pyridine salt (PyC,BPC,Py) on a 3-mercaptopropionic acid modified Au electrode. The potentiometric response

In this study, the overall stability constants of copper(II) complexes with some ␣-amino acids (glycine, DL-alanine, DL-valine, L-leucine, L-asparagine, L-glutamine) were determined by potentiometric titration in water, 25% dioxan-75% water, 35% dioxan-65% water, 50% dioxan-50% water, and 60% dioxan

## Abstract The stopped‐flow technique was used to measure the rates of formation and dissociation of tetrahedral [ML~2~] complexes (M^2+^=Ni^2+^ or Co^2+^) of four bidentate S~2~‐donor ‘dithioimidodiphosphato’ ligands L^−^ (HL=[R^1^R^2^P(S)]NH[P(S)R^3^R^4^], R^1^ to R^4^=alkyl) at 25.0° in MeOH/