The redox thermodynamics and kinetics of flavonoid rutin adsorbed at glassy carbon electrodes by stripping square wave voltammetry

► Adsorptive accumulation of rutin is studied at glassy carbon (GC) electrodes. ► The Frumkin adsorption isotherm described the specific interaction. ► Gibbs free energy of adsorption and the interaction parameter were determined. ► Thermodynamics and kinetics of the surface redox process were chara...

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Veröffentlicht in:	Electrochimica acta 2011-11, Vol.56 (27), p.9707-9713
Hauptverfasser:	Catunda, Francisco Eduardo Aragão, de Araujo, Marcelo Francisco, Granero, Adrian Marcelo, Arévalo, Fernando Javier, de Carvalho, Mario Geraldo, Zón, María Alicia, Fernández, Héctor
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Schlagworte:	Adsorption Chemistry Cyclic voltammetry Electrochemistry Electrodes Ethyl alcohol Exact sciences and technology Flavonoids General and physical chemistry Glassy carbon Quasi-reversible maximum Rutin Square wave voltammetry Square waves Study of interfaces Surface chemistry Thermodynamics Voltammetry
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container_title	Electrochimica acta
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creator	Catunda, Francisco Eduardo Aragão de Araujo, Marcelo Francisco Granero, Adrian Marcelo Arévalo, Fernando Javier de Carvalho, Mario Geraldo Zón, María Alicia Fernández, Héctor
description	► Adsorptive accumulation of rutin is studied at glassy carbon (GC) electrodes. ► The Frumkin adsorption isotherm described the specific interaction. ► Gibbs free energy of adsorption and the interaction parameter were determined. ► Thermodynamics and kinetics of the surface redox process were characterized by SWV. ► Detection limit for rutin was 2×10−8moldm−3 (12ppb). The adsorptive accumulation of rutin (RU) at glassy carbon (GC) electrodes in 10% ethanol+90% 1moldm−3 HClO4 aqueous solution is studied by using cyclic (CV) and square wave (SWV) voltammetries. The Frumkin adsorption isotherm best described the specific interaction of rutin with carbon electrodes. By fitting the experimental data, values of −31.9kJmol−1 and 0.54±0.02 were obtained for the Gibbs free energy of adsorption and the interaction parameter, respectively. SWV fully characterized the thermodynamics and kinetics of the surface redox process, using a combination of the “quasi-reversible maximum” and the “splitting of SW peaks” methods. Average values of 0.644±0.003V and 0.44±0.02 were obtained for the formal potential and the anodic transfer coefficient, respectively. Moreover, a formal rate constant of 6.1×102s−1 was obtained. SWV was also employed to generate calibration curves. The lowest concentration of RU experimentally measured for a signal-to-noise ratio of 3:1 was 2×10−8moldm−3 (12ppb).
doi_str_mv	10.1016/j.electacta.2011.07.053
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The adsorptive accumulation of rutin (RU) at glassy carbon (GC) electrodes in 10% ethanol+90% 1moldm−3 HClO4 aqueous solution is studied by using cyclic (CV) and square wave (SWV) voltammetries. The Frumkin adsorption isotherm best described the specific interaction of rutin with carbon electrodes. By fitting the experimental data, values of −31.9kJmol−1 and 0.54±0.02 were obtained for the Gibbs free energy of adsorption and the interaction parameter, respectively. SWV fully characterized the thermodynamics and kinetics of the surface redox process, using a combination of the “quasi-reversible maximum” and the “splitting of SW peaks” methods. Average values of 0.644±0.003V and 0.44±0.02 were obtained for the formal potential and the anodic transfer coefficient, respectively. Moreover, a formal rate constant of 6.1×102s−1 was obtained. SWV was also employed to generate calibration curves. 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The adsorptive accumulation of rutin (RU) at glassy carbon (GC) electrodes in 10% ethanol+90% 1moldm−3 HClO4 aqueous solution is studied by using cyclic (CV) and square wave (SWV) voltammetries. The Frumkin adsorption isotherm best described the specific interaction of rutin with carbon electrodes. By fitting the experimental data, values of −31.9kJmol−1 and 0.54±0.02 were obtained for the Gibbs free energy of adsorption and the interaction parameter, respectively. SWV fully characterized the thermodynamics and kinetics of the surface redox process, using a combination of the “quasi-reversible maximum” and the “splitting of SW peaks” methods. Average values of 0.644±0.003V and 0.44±0.02 were obtained for the formal potential and the anodic transfer coefficient, respectively. Moreover, a formal rate constant of 6.1×102s−1 was obtained. SWV was also employed to generate calibration curves. 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subjects	Adsorption Chemistry Cyclic voltammetry Electrochemistry Electrodes Ethyl alcohol Exact sciences and technology Flavonoids General and physical chemistry Glassy carbon Quasi-reversible maximum Rutin Square wave voltammetry Square waves Study of interfaces Surface chemistry Thermodynamics Voltammetry
title	The redox thermodynamics and kinetics of flavonoid rutin adsorbed at glassy carbon electrodes by stripping square wave voltammetry
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