Title: Voltammetry Behavior of Cadmium (Ii) Ion at the Mercury Electrode in the Presence of Glutathione and Thioglycolic Acid.
Abstract: Voltammetric behaviors of cadmium (II) ion in the presence of a ligand with sulphur
bearing group, such as Glutathione {(COO-
)(NH3
+(CH2)2CONHCH(CH2SH)CONH(CH2)(COO-)} and Thioglycolic acid
(HSCH2COO-) were studied using mainly Osteryoung square wave voltammetry
(OSWV)and Cyclic voltammetry (CV) at a mercury electrode. The coordination
chemistry of reduced glutathione (GSH) is of great importance as it acts as excellent
model system for the binding of metal ions.
In this study, it was observed that an addition of glutathione as ligand to solution
containing Cd(II) with sulphate as supporting electrolyte caused an increase in the
reduction current of Cd(II) by several factors and also with a slight cathodic shift in the
reduction peak potential of Cd(II). Further assessment of the chemical and physical conditions that may favour optimum current enhancement was done by studying the
effect of varying pH, supporting electrolyte, concentration of ligand and metal ion,
interfering ions and scan rate. The presence of 1-3 mM glutathione, a weakly complexing
supporting electrolyte at pH 4-5 caused a 2-3 fold increase in the reduction current of
Cd(II) and a slight negative shift in peak position . The presence of 1-5mM TGA at
pH5.3 caused 1-2 fold increase in the reduction current of Cd(II) and a slight negative
shift in peak position.
The current enhancement observed in different electrolytic media varied in the following
order: sulphate >nitrate> perchlorate. The presence of other metal ion such as Cr(III) or
Co(III) appear to cause further increase in the reduction current of the Cd(II)-glutathione
peak while the presence of Ni(II) was found to suppress the enhanced peak current
Publication Year: 2006
Publication Date: 2006-01-01
Language: en
Type: dissertation
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