The development of a capillary electrophoresis (CE) method for the determination of
inorganic and organo mercury species as their dithizone sulphonate (DzS) complexes
using coated capillary columns is described. The complexes were pre-formed before
injection and detection was by direct measurement of the visible absorbance of the
complexes. Dithizone sulphonate was used in place of cysteine to separate methyl
mercury in the final stage of a simplified Westoo extraction procedure. The method
was than applied to the analysis of methyl mercury in a crab and several fish meat
samples. Good quantitative performance is demonstrated by spiking experiments and
analysis of DORM-1 certified reference material. The method was found to be very
sensitive and a detection limit of 2 µg Kgˉ¹ could be achieved for a l0g sample of fish
flesh.
A CE method for the determination of uranium (VI) as the arsenazo III complex was
developed and the effect of interfering metal ions was studied. The calibration was
found to be linear from 10 µg 1ˉ¹ -10 mg 1ˉ¹ using gravity injections and a detection
limit of less than 1 µg 1ˉ¹ was achieved with electrokinetic injection.
A study was made of injection techniques and their applicability to the enhancement
of sensitivity in synthetic standards and environmental samples.
The effect of capillary surface chemistry on the peak shape of the migrating uranyl-arsenazo
III was also studied using fused silica capillaries with two different internal
coatings and three polymeric capillaries.
A study was also carried out on the construction and investigation of a post-capillary
reactor for the determination of trace metals by UV-Vis absorption after formation of
intensely absorbing coloured complexes. The main principle of operation was based
on the infusion of the colorimetric reagent into a small 50µm gap between the
separation capillary and the reaction capillary. The gap was enclosed by a permeable
membrane and the flow of reagent was achieved by the application of a slight pressure
to the post-capillary reactor cell. Two reagents were studied, namely, xylenol orange
(XO) and 4 (2-pyridylazo) resorcinol (PAR), for the separation and detection of
copper (U), cadmium (II), cobalt (II), nickel (II), zinc (II), and manganese (II). Lead
(II) was also included in the XO system.
Date of Award | 2000 |
---|
Original language | English |
---|
Awarding Institution | |
---|
THE DETERMINATION OF TRACE METALS BY CAPILLARY ELECTROPHORESIS
Hardy, S. A. (Author). 2000
Student thesis: PhD