F. Nil Ertaş scite author profile

An arrangement of a voltammetric cell specially designed to be compatible to both centrifugation and voltammetry was designed, allowing direct measurement without any need for dissolution or filtration steps. The procedure for the preconcentration via coprecipitation is described. The system was succesfully tested using trace amounts of Pb(II) ions in aqueous solution preconcentrated with Al(OH) 3 as the carrier precipitate and resulting peak currents were found much higher than those without applying centrifugation. The effects of the parameters on the resulting signal were examined and the detection limit was found as 2.2 Â 10 À9 M. The present study demonstrates a novel procedure which combines the advantages of coprecipitation with those of anodic stripping voltammetry in a single cell. For this purpose, a vessel compatible to both a voltammetric analyzer and centrifuge was constructed. A planar electrode was placed at the bottom of the cell in order to accumulate a thin layer of adsorptive materials onto the surface by centrifugation. First experiments with this cell include voltammetric determination of Pb(II) ions with the help of preconcentration via coprecipitation thus avoiding the filtration and dissolution steps.Al(OH) 3 is widely used as a collector precipitate. A thin layer of Al(OH) 3 produced by centrifugation at the electrode surface can adsorbe and therefore preconcentrate trace elements. The main objective of the study is to trap the analyte, i.e., lead ion, between the alumina layer and the electrode surface by coprecipitation. It also provides a conductive coating which allows for the voltammetric measurement directly in the same cell eliminating labourous filtration and dissolution steps.A previous study on preconcentration recommends the use of 200 mg aluminum salt per 200 mL solution for Pb(II) enrichment [7]. This value reflects the maximum amount of Pb(II) ions carried by the precipitate for optimal separation. In terms of sensitivity, the optimization of Al(III) concentration that will yield the maximum peak current for lead ions is necessary for the present work. Among the concentrations examined, best results for enriched Pb(II) ions were obtained with 5 Â 10 À5 M Al(III) solution (data not shown). Higher concentrations produce a thicker aluminum hydroxide layer on the electrode surface that will render the reduction process of Pb(II) ions trapped.As is well known, the medium pH influences the amount and adsorption capacity of the precipitate. Upon addition of aluminum salts to the aqueus solution, hydrolysis reactions take place leading to the formation of monomers and multinuclear hydrolyzed species depending on the pH of the medium [8]. Therefore, the pH effect was examined in a

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Sulfite determination using sulfite oxidase biosensor based glassy carbon electrode coated with thin mercury film

Dinçkaya

Sezgintürk

Akyılmaz

et al. 2007

Food Chemistry

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Molybdenum oxide/platinum modified glassy carbon electrode: A novel electrocatalytic platform for the monitoring of electrochemical reduction of oxygen and its biosensing applications

Çakar

Özdokur

Demir

et al. 2013

Sensors and Actuators B: Chemical

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Electrochemical Preparation, Characterization of Molybdenum-Oxide/Platinum Binary Catalysts and Its Application to Oxygen Reduction Reaction in Weakly Acidic Medium

Yavuz

Özdokur

Çakar

et al. 2015

Electrochimica Acta

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Centri-voltammetric determination of glutathione

2012

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F. Nil Ertaş

A New Procedure for Voltammetric Lead Determination Based on Coprecipitation and Centrifugation Preconcentration

Sulfite determination using sulfite oxidase biosensor based glassy carbon electrode coated with thin mercury film

Molybdenum oxide/platinum modified glassy carbon electrode: A novel electrocatalytic platform for the monitoring of electrochemical reduction of oxygen and its biosensing applications

Electrochemical Preparation, Characterization of Molybdenum-Oxide/Platinum Binary Catalysts and Its Application to Oxygen Reduction Reaction in Weakly Acidic Medium

Centri-voltammetric determination of glutathione

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