The objective of this study was to develop novel techniques for on-line
sample pre-treatment for use with atomic spectroscopy. Preconcentration of the
analytes using either complexation of the analyte(s) on an analytical column or by
in-situ (in atomiser) trapping on a pre-coated graphite tube has been used. The
samples were manipulated using flow injection analysis and detection achieved in
most cases by ETAAS. All aspects of the study are supported by reference to the
literature.
Using the above approach, a new method has been developed to
determine mercury in environmental (sediment) and biological (tuna fish) samples.
This approach successfully achieved a sample throughput of 20-30 sample per
hour, with a method detection limit of 0.2 ng g*^ (3a) and a precision of less than
10% at the 0.1 ug g"^ level. An interference study was conducted and seven
elements ( As\, Cd", Cu", Ni", Pb". Sb'' and Se"") shown to give less than a 5%
interference when the interferent concentration was 2 orders of magnitude greater
than the Hg. Silver showed a 9% interference when one order of magnitude
greater than the Hg.
The technique of "in atomiser trapping" was applied to the determination of
As, Bi, Sb and Se, in lake water samples. The hydrides were sequestrated upon
an Ir coated graphite tube and the instrumental and chemical parameters
optimised for multi-element determinations. Iridium has been identified as the
best trapping material (coating) for multi-element determinations. The final method
gave detection limits of 0.82, 0.04, 0,26 and 0.29 ug 1'^ (500 ul sample loop) for
As, Bi, Sb and Se respectively. A characteristic mass of 177 pg for As, 91 pg for
Bi, 107 pg for Sb and 90 pg for Se was achieved. Good agreement was obtained
with certified and standard reference materials and the method was successfully
applied to the determination of As, Bi, Sb and Se in lake water samples.
Six elements (Cd, Cu, Fe, Mn, Ni and Pb) were selected for determination
in seawater samples by multi-element on-line column preconcentration. The
sample stream was mixed on-line with a buffered solution of diethylammonium
dithiocarbamate (DDDC). and the metal-DDC complex retained upon a Cie RP
silica column. Ethanol was then used to elute the metals from the column directly
into the graphite tube. Disappointing results, were obtained due to interference
problems, and although more work is required before this approach may be
routinely used, it is shown to have potential for the future.
Overall, this study has shown that novel methods employing flow injection
methodologies for separation and preconcentration are a viable way to prepare
environmental sample for analysis by ETAAS. Further it has demonstrated that
multi-element analysis is possible for low levels of analyte despite the presence of
troublesome matrices, although further work is required to achieve the ultimate
goal of a universal method suitable for all analytes irrespective of the sample
type.
Date of Award | 1998 |
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Original language | English |
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Awarding Institution | |
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ON-LINE SAMPLE PRETREATMENT OF ENVIRONMENTAL SAMPLES FOR USE WITH ATOMIC SPECTROMETRY
MURPHY, J. R. (Author). 1998
Student thesis: PhD