Voltammetric Detection of Mercury and Copper in Seawater Using a Gold Microwire Electrode

Voltammetric Detection of Mercury and Copper in Seawater Using a Gold Microwire Electrode

A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of...

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Published in:Analytical chemistry (Washington) Vol. 78; no. 14; pp. 5052 - 5060
Main Authors: Salaün, Pascal, van den Berg, Constant M. G
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 15-07-2006
Subjects:
Analytical chemistry
Anions - chemistry
Chemistry
Copper
Copper - analysis
Copper - chemistry
Diffusion
Electrochemical methods
Electrodes
Exact sciences and technology
Gold
Gold - chemistry
Kinetics
Marine
Mercury
Mercury - analysis
Mercury - chemistry
Microscopy, Electron, Scanning
Seawater
Seawater - analysis
Seawater - chemistry
Wire
Liverpool Bay
ANE, British Isles, Liverpool Bay
INE, USA, Washington
Water
Gold
Stability
Rotating disk electrode
Anodic stripping voltammetry
Stirring
Roughness
Desorption
Chemical enrichment
Hydrochloric acid
Adsorption
Halides
Chlorides
Detection limit
Bromides
Pretreatment
Copper
Diffusion
Mercury
Seawater
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Abstract A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of the mercury peak. The effect is eliminated by including an anion desorption step in the analysis at −0.8 V prior to each scan. This step was found to greatly improve the stability of the scans and enabled the use of background subtraction. Advantages of the microwire electrodes were a low roughness of the surface, without a need for pretreatment, and a very small diffusion layer (2 μm with stirring). Under the optimized voltammetric conditions, the detection limits were 6 pM mercury and 25 pM copper using 300-s deposition. These values are well below those reported previously for other electrodes including rotating disk electrodes. Measurements of the influence of the major anions I-, Br-, Cl-, SO4 2-, F-, HCO3 -, and B(OH)4 on the response for mercury showed that bromide and chloride are predominantly responsible for the underpotential deposition mechanism of mercury in seawater. The method was applied to coastal water samples from Liverpool Bay.
AbstractList A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of the mercury peak. The effect is eliminated by including an anion desorption step in the analysis at -0.8 V prior to each scan. This step was found to greatly improve the stability of the scans and enabled the use of background subtraction. Advantages of the microwire electrodes were a low roughness of the surface, without a need for pretreatment, and a very small diffusion layer (2 microm with stirring). Under the optimized voltammetric conditions, the detection limits were 6 pM mercury and 25 pM copper using 300-s deposition. These values are well below those reported previously for other electrodes including rotating disk electrodes. Measurements of the influence of the major anions I-, Br-, Cl-, SO4(2-), F-, HCO3-, and B(OH)4 on the response for mercury showed that bromide and chloride are predominantly responsible for the underpotential deposition mechanism of mercury in seawater. The method was applied to coastal water samples from Liverpool Bay.
A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HC1) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of the mercury peak. The effect is eliminated by including an anion desorption step in the analysis at -0.8 V prior to each scan. This step was found to greatly improve the stability of the scans and enabled the use of background subtraction. Advantages of the microwire electrodes were a low roughness of the surface, without a need for pretreatment, and a very small diffusion layer (2 mu m with stirring). Under the optimized voltammetric conditions, the detection limits were 6 pM mercury and 25 pM copper using 300-s deposition. These values are well below those reported previously for other electrodes including rotating disk electrodes. Measurements of the influence of the major anions I super(-), Br super(-), Cl super(-), SO super(2) sub(4) super(-), F super(-), HCO super(-) sub(3), and B(OH) sub(4) on the response for mercury showed that bromide and chloride are predominantly responsible for the underpotential deposition mechanism of mercury in seawater. The method was applied to coastal water samples from Liverpool Bay.
A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of the mercury peak. The effect is eliminated by including an anion desorption step in the analysis at -0.8 V prior to each scan. This step was found to greatly improve the stability of the scans and enabled the use of background subtraction. Advantages of the microwire electrodes were a low roughness of the surface, without a need for pretreatment, and a very small diffusion layer (2 m with stirring). Under the optimized voltammetric conditions, the detection limits were 6 pM mercury and 25 pM copper using 300-s deposition. These values are well below those reported previously for other electrodes including rotating disk electrodes. Measurements of the influence of the major anions I-, Br-, Cl-, SO42-, F-, HCO3-, and B(OH)4 on the response for mercury showed that bromide and chloride are predominantly responsible for the underpotential deposition mechanism of mercury in seawater. The method was applied to coastal water samples from Liverpool Bay. [PUBLICATION ABSTRACT]
A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry using gold microwire electrodes. It was found that anion (halide) adsorption is the cause for a gradual decrease in the height and potential of the mercury peak. The effect is eliminated by including an anion desorption step in the analysis at −0.8 V prior to each scan. This step was found to greatly improve the stability of the scans and enabled the use of background subtraction. Advantages of the microwire electrodes were a low roughness of the surface, without a need for pretreatment, and a very small diffusion layer (2 μm with stirring). Under the optimized voltammetric conditions, the detection limits were 6 pM mercury and 25 pM copper using 300-s deposition. These values are well below those reported previously for other electrodes including rotating disk electrodes. Measurements of the influence of the major anions I-, Br-, Cl-, SO4 2-, F-, HCO3 -, and B(OH)4 on the response for mercury showed that bromide and chloride are predominantly responsible for the underpotential deposition mechanism of mercury in seawater. The method was applied to coastal water samples from Liverpool Bay.
Author Salaün, Pascal
van den Berg, Constant M. G
Author_xml – sequence: 1
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  givenname: Constant M. G
  surname: van den Berg
  fullname: van den Berg, Constant M. G
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https://www.ncbi.nlm.nih.gov/pubmed/16841929$$D View this record in MEDLINE/PubMed
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Issue 14
Keywords Water
Gold
Stability
Rotating disk electrode
Anodic stripping voltammetry
Stirring
Roughness
Desorption
Chemical enrichment
Hydrochloric acid
Adsorption
Halides
Chlorides
Detection limit
Bromides
Pretreatment
Copper
Diffusion
Mercury
Seawater
Language English
License CC BY 4.0
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SSID ssj0011016
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Snippet A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HCl) by anodic stripping voltammetry...
A procedure is presented by which mercury and copper are determined simultaneously in seawater and dilute acid (0.01 M HC1) by anodic stripping voltammetry...
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pubmed
pascalfrancis
istex
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Publisher
StartPage 5052
SubjectTerms Analytical chemistry
Anions - chemistry
Chemistry
Copper
Copper - analysis
Copper - chemistry
Diffusion
Electrochemical methods
Electrodes
Exact sciences and technology
Gold
Gold - chemistry
Kinetics
Marine
Mercury
Mercury - analysis
Mercury - chemistry
Microscopy, Electron, Scanning
Seawater
Seawater - analysis
Seawater - chemistry
Wire
Title Voltammetric Detection of Mercury and Copper in Seawater Using a Gold Microwire Electrode
URI http://dx.doi.org/10.1021/ac060231
https://api.istex.fr/ark:/67375/TPS-R7T5SQLD-H/fulltext.pdf
https://www.ncbi.nlm.nih.gov/pubmed/16841929
https://www.proquest.com/docview/217876846
https://search.proquest.com/docview/20212274
https://search.proquest.com/docview/68636955
Volume 78
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