Speciation Analysis of Trace Metals in Natural Waters Using Vibrating Electrodes PDF Download
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Author: Zhaoshun Bi
Publisher:
ISBN:
Category :
Languages : en
Pages :
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The speciation of trace metals plays a very important role in conditioning their biogeochemical cycles in the marine system. Their species are found to be strongly related to organic matters such as humic acids (HA) and fulvic acids (FA). This thesis aims to develop appropriate techniques to improve our understanding of the speciation of some trace metals, mainly in marine waters. Lead (Pb), cadmium (Cd) and chromium (Cr) which are widely used in industry were analytzed. The concentration of lead in uncontaminated seawater is between 10 and 100 pM, whilst in coastal waters it is higher at up to low nanomolar levels. Little is known about the chemical speciation of lead since it is difficult to be determined at picomolar levels. The work in this dissertation was to develop a suitable electrode and procedure to determine lead in seawater, with the objective that the electrode could be applied for in-situ measurement (without reagents) and for speciation. Several electrodes and materials were tested, including a solid bismuth rod and different microwire materials. Vibration was used to enhance mass transport, instead of solution stirring, to decrease detection limits and facilitate in-situ monitoring. The bismuth electrode was found to be suitable for monitoring lead in coastal waters: it is mercury-free and therefore environmentally friendly, but insufficiently sensitive for oceanic lead concentrations. Comparison of microwires of carbon, gold and silver showed that all of these bare electrodes give a signal for lead, but they suffer variable interference from cadmium, although this is minor if the cadmium concentration is lower than lead. A large improvement was obtained by coating the electrodes with mercury, which gave good peak resolution between cadmium and lead, and good sensitivity. The carbon and gold electrodes had good reproducibility and sensitivity when the mercury was renewed for each measurement. Once coated with mercury, the silver electrode formed amalgam with the silver which could not be completely removed. This electrode was thus not suitable to be used as a renewable mercury film electrode. However, as a permanently amalgamated silver electrode, it was found to have good sensitivity for lead, good separation from cadmium, and was stable for long time usage. This electrode, the silver amalgam microwire (SAM) electrode, was selected for further speciation study of Pb in oceanic waters. Optimum conditions for using the SAM electrode for trace lead detection in seawater involve the use of conditioning potentials. The limit of detection for lead was 4 pM lead in acidified seawater and 12 pM lead in seawater of pH 8. The higher limit of detection at pH 8 is due to the inorganic speciation at that pH. The SAM electrode was successfully used for pseudopolarography of lead to determine its organic complexation. This method was calibrated using model compounds and applied for the first time to estuarine, coastal and oceanic samples at natural concentrations of Pb. It was found that lead occurs mostly as a labile (reactive, organic) species, with a smaller fraction as a strongly organically bound species. The SAM electrode was also tested for chromium analysis using cathodic stripping voltammetry (CSV) in natural waters. Its detection limit is as good as the mercury drop electrode but reduces consumption of mercury.
Author: Zhaoshun Bi
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
The speciation of trace metals plays a very important role in conditioning their biogeochemical cycles in the marine system. Their species are found to be strongly related to organic matters such as humic acids (HA) and fulvic acids (FA). This thesis aims to develop appropriate techniques to improve our understanding of the speciation of some trace metals, mainly in marine waters. Lead (Pb), cadmium (Cd) and chromium (Cr) which are widely used in industry were analytzed. The concentration of lead in uncontaminated seawater is between 10 and 100 pM, whilst in coastal waters it is higher at up to low nanomolar levels. Little is known about the chemical speciation of lead since it is difficult to be determined at picomolar levels. The work in this dissertation was to develop a suitable electrode and procedure to determine lead in seawater, with the objective that the electrode could be applied for in-situ measurement (without reagents) and for speciation. Several electrodes and materials were tested, including a solid bismuth rod and different microwire materials. Vibration was used to enhance mass transport, instead of solution stirring, to decrease detection limits and facilitate in-situ monitoring. The bismuth electrode was found to be suitable for monitoring lead in coastal waters: it is mercury-free and therefore environmentally friendly, but insufficiently sensitive for oceanic lead concentrations. Comparison of microwires of carbon, gold and silver showed that all of these bare electrodes give a signal for lead, but they suffer variable interference from cadmium, although this is minor if the cadmium concentration is lower than lead. A large improvement was obtained by coating the electrodes with mercury, which gave good peak resolution between cadmium and lead, and good sensitivity. The carbon and gold electrodes had good reproducibility and sensitivity when the mercury was renewed for each measurement. Once coated with mercury, the silver electrode formed amalgam with the silver which could not be completely removed. This electrode was thus not suitable to be used as a renewable mercury film electrode. However, as a permanently amalgamated silver electrode, it was found to have good sensitivity for lead, good separation from cadmium, and was stable for long time usage. This electrode, the silver amalgam microwire (SAM) electrode, was selected for further speciation study of Pb in oceanic waters. Optimum conditions for using the SAM electrode for trace lead detection in seawater involve the use of conditioning potentials. The limit of detection for lead was 4 pM lead in acidified seawater and 12 pM lead in seawater of pH 8. The higher limit of detection at pH 8 is due to the inorganic speciation at that pH. The SAM electrode was successfully used for pseudopolarography of lead to determine its organic complexation. This method was calibrated using model compounds and applied for the first time to estuarine, coastal and oceanic samples at natural concentrations of Pb. It was found that lead occurs mostly as a labile (reactive, organic) species, with a smaller fraction as a strongly organically bound species. The SAM electrode was also tested for chromium analysis using cathodic stripping voltammetry (CSV) in natural waters. Its detection limit is as good as the mercury drop electrode but reduces consumption of mercury.
Author: Kristopher Bryant Gibbon-Walsh
Publisher:
ISBN:
Category :
Languages : en
Pages :
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This work reports the use of the vibrating gold microwire electrode, with new methods developed for the speciation of Zn, Cu, Mn and As at natural levels in waters of neutral pH. Trace metals and metalloids can be distributed as different species in the environment, which can control mobility, toxicity and bioavailability and in turn depends on many complex factors. Analysis of this distribution (speciation) can provide an understanding of the relationship between such elements and their relationship with organisms in marine environments and humans through contaminated drinking water supplies. Such speciation can be analysed using a vibrating gold microwire electrode (VGME), which is easily prepared and maintained at minimal cost. High sensitivity is found for trace metals: Mn; Cu and Zn; and the metalloid As, resulting from a very low diffusion layer (~0.8 urn for a Sum gold wire) means that they can be measured at trace levels in natural waters. This combined with the VGME's portability, reliability and stability for long term measurement (repeated measurements over several days) and its capability to distinguish between distinct forms ofthe above trace elements mean that speciation methods could be successfully developed and validated in natural waters, with no, or minimal sample preparation. Such methods made it possible to analyse speciation on-site, which decreases the potential problems inherent in maintaining sample speciation during storage. Contamination of groundwater with As is a major health risk through contamination of drinking and irrigation water supplies. In geochemically reducing conditions As is mostly present as ASIII, which is why a method that uses cathodic stripping voltammetry (CSV) to determine reactive AS"I was developed. The ASIII is detected after adsorptive deposition of As(OHho, followed by a potential scan to measure the reduction current from AsIII to Aso. The method is suitable for waters of pH 7-12. The CSV method was successfully applied to groundwaters from Severn Trent, UK, however speciation using this method is severely hampered by high levels of iron and manganese. Experiments showed that the interference is eliminated by addition of EDTA, making it possible to determine the arsenic speciation on-site by CSV in West Bengal, India. The VGME is also used to detect nanomolar levels of dissolved Mn by anodic stripping chronopotentiometry (ASC) and sub-nanomolar levels of dissolved Zn by anodic stripping voltammetry (ASV) in neutral pH seawater. The limits of detection for Mn (1.4 nM) and for Zn (0.3 nM) in seawater with a 300 s plating time, are better than achieved using other non-mercury based electrodes and nearly as good as a mercury film electrode for Zn. Deposition of Mn at the VGME was further utilised to catalyse the reduction of Asv to ASIII, enabling for the first time the direct electrochemical determination of Asv in natural waters of neutral pH including seawater by ASV using a manganese coated gold microwire electrode. Direct electrochemical determination of Asv in neutral pH waters is impossible due to its electro-inactivity. Therefore Mn is added to excess (~1 JlM Mn) to the water leading to a Mn coating during the deposition of Asv on the electrode, when depositing at -1.3 V. The detection limit was 0.2 nM Asv using a deposition time of 180 s. Speciation of Cu is determined without the need for sample preparation, using scanned stripping techniques for the first time at natural levels in seawater. A desorption potential (-1.2 V) and a conditioning interval between scans make the VG ME suitable for on-site and potentially in-situ copper speciation. The resulting pseudopolarograms are analysed using an experimentally constructed 'chelate scale' to determine the strength of copper ligand interactions in real seawater samples.
Author: C.J. Kramer
Publisher: Springer Science & Business Media
ISBN: 9400961677
Category : Science
Languages : en
Pages : 453
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Book Description
It is presently well recognized that total concentrations of trace elements in any environmental compartment supply insufficient information to understand important phenomena. The distinction and separate analysis of specific chemical species are essential for understanding cycles in the aquatic environment, involving identification and quantification of sources, transport pathways, distributions and sinks, or, in the area of interactions between trace elements and organisms to understand uptake, distribution, excretion mechanisms and effects. In the past, various ways have been developed to determine the nature and extent of complexation of trace elements in natural systems. Approaches have been followed along very different lines. These have not always been fully appreciated by specialists working in even related fields of complexation research. The first International Symposium on the Complexation of Trace metals in Natural Waters was held at the Netherlands Institute for Sea Research (NIOZ, Texel, the Netherlands from 2-6 May 1983. The scientific programme was planned by the chief organizers Drs. C.J.M. Kramer and J.C. Duinker (NIOZ) together with Prof. Dr. H.W. Nurnberg (Kernforschungsanlage, Julich, Federal Republic of Germany) and Dr. M. Branica (Rudjer Boskovic Institute, Zagreb, Yugoslavia).
Author: Yanxin Luo
Publisher:
ISBN:
Category : Trace elements in water
Languages : en
Pages : 224
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Author: Thomas Summers West
Publisher: Wiley-Blackwell
ISBN:
Category : Science
Languages : en
Pages : 392
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Author: André Tessier
Publisher: John Wiley & Sons
ISBN:
Category : Nature
Languages : en
Pages : 704
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This publication deals with fundamental concepts and models, speciation measurements and field applications in metal speciation and bioavailability in aquatic environments. This volume provides a thorough review of current developments concerning the interactions between trace metals and aquatic organisms.
Author: Lars Landner
Publisher: Springer
ISBN: 3540477330
Category : Science
Languages : en
Pages : 229
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Book Description
The particular behavior of trace metals in the environment is determined by their specific physico-chemical form rather than by their total concentration. The introduction of atomic absorption spectrometry has lead to a plethora of scientific papers and reports in which metal concentrations in the environment are only reported as total concentrations. Only recently has the need for improved knowledge on the various forms and bioavailability of metals been realised. Considerable research effort is now devoted to measuring the concentrations of trace metals in surface waters. Efforts are made to couple chemical analytical techniques to process-related biological problems. The proceedings of the workshop on The Speciation of Metals in Water, Sediment and Soil Systems held in Sunne, Sweden, comprise these efforts and show aspects for further cooperation between analytical chemists and biologists.
Author: Pushkar Anant Sule
Publisher:
ISBN:
Category : Ion exchange
Languages : en
Pages : 342
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Author: Robert Keith Anderson
Publisher:
ISBN:
Category :
Languages : en
Pages : 690
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Author: Bertil Magnusson
Publisher:
ISBN:
Category : Spectrum analysis
Languages : en
Pages : 162
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