Amperometric and potentiometric determination of iodide using carbon electrodes modified with salophen complex

A statistical treatment was carried out on electrochemical methods intended for iodide determination as a tracer in seawater reservoirs. Comparison was made for amperometric and potentiometric detection, including the use of a modified carbon electrode. The potentiometric method showed a good linear...

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Published in:Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2016-12, Vol.783, p.49-55
Main Authors: de Souza, Flávia Carvalho, Vegas, Carolina Guimarães, da Silva, Davi Augusto Izidro, Ribeiro, Márcia Simões, Cabral, Murilo Feitosa, de Melo, Maria Aparecida, Mattos, Roberta Maciel Toledo, Faria, Roberto B., D'Elia, Eliane
Format: Article
Language:English
Subjects:
Amperometry
Carbon
Carbon paste modified electrode
Chemical compounds
CoII(salophen)
Correlation coefficients
Electrical measurement
Electrochemistry
Electrodes
Iodide
Iodine
Produced water
Reservoir tracers
Reservoirs
Salophen
Samples
Seawater
Statistical analysis
Statistical methods
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cited_by cdi_FETCH-LOGICAL-c388t-db370bd9d195dfadb476350d8e65194e3dee350e78ee91582211990440b3b4393
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container_title Journal of electroanalytical chemistry (Lausanne, Switzerland)
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creator de Souza, Flávia Carvalho
Vegas, Carolina Guimarães
da Silva, Davi Augusto Izidro
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de Melo, Maria Aparecida
Mattos, Roberta Maciel Toledo
Faria, Roberto B.
D'Elia, Eliane
description A statistical treatment was carried out on electrochemical methods intended for iodide determination as a tracer in seawater reservoirs. Comparison was made for amperometric and potentiometric detection, including the use of a modified carbon electrode. The potentiometric method showed a good linear correlation coefficient (r=0.9926) with a Nernstian behavior in a concentration range of 10−5 to 1molL−1 (1.3mgL−1 to 127gL−1) and a limit of detection of 1.3mgL−1 (10μmolL−1). The amperometric method showed a good linear correlation coefficient (r=0.9988) with a linear response over a concentration range of 1 to 4mgL−1 (8 to 31.5μmolL−1) and a limit of detection of 0.5mgL−1 (4μmolL−1). The statistic treatment has shown that the potentiometric method is promising to measure the iodide concentration in samples with high iodide content and the amperometric method is appropriate to measure the iodide concentration in samples with low iodide content, for example, in the case of produced water from petroleum reservoirs. Moreover, the salophen modified electrode can be readily used for routine analysis in laboratory. [Display omitted] •Potentiometric and amperometric methods were compared for iodide analysis.•The amperometric method is more appropriate to measure low iodide concentrations.•CME (salophen complex) with Pt UME was compared against other electrodes.
doi_str_mv 10.1016/j.jelechem.2016.10.056
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1873-2569
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subjects Amperometry
Carbon
Carbon paste modified electrode
Chemical compounds
CoII(salophen)
Correlation coefficients
Electrical measurement
Electrochemistry
Electrodes
Iodide
Iodine
Produced water
Reservoir tracers
Reservoirs
Salophen
Samples
Seawater
Statistical analysis
Statistical methods
title Amperometric and potentiometric determination of iodide using carbon electrodes modified with salophen complex
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