Theoretical Treatment of a Cathodic Stripping Mechanism of an Insoluble Salt Coupled with a Chemical Reaction in Conditions of Square Wave Voltammetry. Application to 6‐Mercaptopurine‐9‐D‐Riboside in the Presence of Ni(II)

Valentin Mirčeski,Witold Ciesielski,Dariusz Guziejewski

doi:10.1002/elan.201000720

Theoretical Treatment of a Cathodic Stripping Mechanism of an Insoluble Salt Coupled with a Chemical Reaction in Conditions of Square Wave Voltammetry. Application to 6‐Mercaptopurine‐9‐D‐Riboside in the Presence of Ni(II)

Valentin Mirčeski, Witold Ciesielski + Show 1 more

https://doi.org/10.1002/elan.201000720

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Journal: Electroanalysis	Publication Date: May 3, 2011
Citations: 16

Affiliation: Saints Cyril and Methodius University of Skopje, University of Łódź

#Conditions Of Squarewavevoltammetry #Mercury Electrode In Aqueous Solution + Show 8 more

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Abstract

AbstractCathodic stripping mechanism of an insoluble salt coupled with a homogenous chemical reaction is considered both theoretically and experimentally under conditions of square‐wave voltammetry. For the mercury electrode in aqueous solution, the electrode reaction is described as L(aq)+Hg(l)=HgL(s)+2e−, where L(aq) is the reactive ligand that forms a sparingly soluble compound HgL(s). The electrode reaction is coupled with a homogenous, first‐order chemical reaction, A(aq)=L(aq). Theoretical predictions are confirmed by experiments with 6‐mercaptopurine‐9‐D‐riboside in the presence of nickel(II) ions.

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