Skip to content
Home
About Us
Resources
Profiles Metrics
Authors Directory
Institutions Directory
Top Authors
Top Institutions
Top Sponsors
AI Digest
Contact Us
Menu
Home
About Us
Resources
Profiles Metrics
Authors Directory
Institutions Directory
Top Authors
Top Institutions
Top Sponsors
AI Digest
Contact Us
Home
About Us
Resources
Profiles Metrics
Authors Directory
Institutions Directory
Top Authors
Top Institutions
Top Sponsors
AI Digest
Contact Us
Menu
Home
About Us
Resources
Profiles Metrics
Authors Directory
Institutions Directory
Top Authors
Top Institutions
Top Sponsors
AI Digest
Contact Us
Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
agricultural and biological sciences
Determination of inorganic mercury using a polyaniline and polyaniline-methylene blue coated screen-printed carbon electrode
International Journal of Environmental Analytical Chemistry, Volume 90, No. 9, Year 2010
Notification
URL copied to clipboard!
Description
Inorganic mercury ions (Hg2+) in laboratory prepared solutions were determined with a screen-printed carbon electrode (SPCE) coated with a polyaniline-methylene blue (PANI-MB) polymer layer. The structure and properties of the PANI-MB polymer layer were compared to that of normal polyaniline (PANI) in order to elucidate the structure of the PANI-MB layer. The electrically-conducting polymers were prepared by electrochemical polymerisation of monomer solutions of aniline, and mixed solutions of aniline with methylene blue onto respective screen-printed carbon electrodes (SPCEs). Scanning Electron Microscopy (SEM) analyses of the SPCE polymer coated electrodes have shown that nanostructured materials have formed with the diameters of the PANI nanoclusters and PANI-MB nanorods at approximately 200nm. Anodic stripping voltammetry (ASV) was used to evaluate a solution composed of 1 × 10 -6 M Hg2+, in the presence of the SPCE/PANI-MB polymer sensor electrode. The Hg2+ ions were determined as follows: (i) pre-concentration and reduction on the modified electrode surface and (ii) subsequent stripping from the electrode surface during the positive potential sweep. The experimental conditions optimised for Hg2+ determination included the supporting electrolyte concentration and the accumulation time. The results obtained have shown that the SPCE/PANI-MB polymer sensor electrode operates optimally at a pH 2, with the supporting electrolyte concentration at 0.5M HCl. A linear calibration curve was found to be in the range of 1 × 10 -8 M to 1 × 10 -5 M Hg2+ after 120 s of pre-concentration. The detection limit was calculated and found to be 54.27 ± 3.28 μg L 1 of Hg2+. The results have also shown that a conducting polymer modified SPCE sensor electrode can be used as an alternative transducer for the voltammetric stripping and analysis of inorganic Hg2+ ions. © 2010 Taylor & Francis.
Authors & Co-Authors
Somerset, Vernon Sydwill
South Africa, Pretoria
The Council for Scientific and Industrial Research
Leaner, Joy J.
South Africa, Pretoria
The Council for Scientific and Industrial Research
Mason, Robert Peter
United States, Groton
University of Connecticut Avery Point Campus
Iwuoha, Emmanuel Iheanyichukwu
South Africa, Bellville
University of the Western Cape
Morrin, Aoife
Ireland, Dublin
Dublin City University
Statistics
Citations: 39
Authors: 5
Affiliations: 4
Identifiers
Doi:
10.1080/03067310902962536
ISSN:
03067319
e-ISSN:
10290397
Research Areas
Environmental