Journal
MICROCHEMICAL JOURNAL
Volume 192, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.microc.2023.108905
Keywords
Modified carbon paste electrode; Petroleum water samples; Atomic absorption spectrometry; Epoxide natural rubber
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A novel modified carbon paste electrode using Epoxide natural rubber as a chemical modifier was developed for quantifying mercuric ions in water samples. The electrode exhibited a Nerstian response in wide detection ranges, with low limits of detection. It demonstrated excellent stability and selectivity for mercury ions, and was successfully applied in real-world petroleum water samples. The use of Epoxide natural rubber enhances the environmental friendliness of the analytical method.
A novel modified carbon paste electrode that was based on Epoxide natural rubber 30 phr (electrode V) and Epoxide natural rubber spent coffee 5 phr (electrode X) as a chemical modifier was developed and used to quantify mercuric ions in water samples. The developed electrode exhibits a Nerstian response within ranges of 10- 7 - 10-1 and 10-8 - 10-1 mol L-1, and the obtained limits of detection (LOD) were 4.5 x 10-8 and 6.9 x 10-9 mol L-1 for electrode IV and Electrode VII, respectively. The paste showed that it could be utilized for more than 125 and 140 days without showing any signs of deterioration. Moreover, the sensors were proved to be useable within pH ranges of 1.5 to 5.0, and 1.0 to 5.5, for the respectively mentioned electrodes. The isothermal coefficients were found to be 0.00011 and 0.00017 V/oC for electrode IV and electrode VII, respectively. Match potential method (MPM) selectivity coefficients show that mercury(II) ions have a high selectivity. Mercury may be distinguished from other cations quite well with the suggested electrode. The suggested sensors were applied successfully in the quantification of Hg(II) ions in real-world petroleum water samples. The unique abilities of these Epoxide natural rubber 30 phr is the key driver for adoption of (ISEs) principles to improve environmental friendliness of the analytical methods. The results from the developed approach and those from atomic absorption spectrometry (AAS) were statistically comparable.
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