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  1. 2 Open Chemistry

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  1. 1 2010

  2. 1 2005

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  1. 2 Komorsky-Lovrić Š.

  2. 2 Lovrić M.

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Kinetics of electrode reaction coupled to ion transfer across the liquid/liquid interface

100%
Komorsky-Lovrić Š., Lovrić M.
Open Chemistry
|
2005
|
vol. 3
|
issue 2
216-229
EN
In the theoretical model it is assumed that a graphite disk electrode is covered by a thin film of solution of decamethylferrocene (dmfc) and some electrolyte CX in nitrobenzene and immersed in an aqueous solution of the electrolyte MX. Oxidation of dmfc is accompanied by the transfer of anion X − from water into nitrobenzene since it is also assumed that cations dmfc + and C + are insoluble in water and cation M + is insoluble in nitrobenzene. Kinetic parameters of the electrode reaction can be determined if the total potential difference across the nitrobenzene/water interface is maintained constant by adding the electrolytes CX and MX in concentrations which are much higher than the initial concentration of dmfc in nitrobenzene.
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Theory of reverse scan square-wave voltammetry influenced by the kinetics of reactant adsorption

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Lovrić M., Komorsky-Lovrić Š.
Open Chemistry
|
2010
|
vol. 8
|
issue 3
513-518
EN
A model of electrode reaction complicated by slow adsorption of the reactant is developed for square-wave voltammetry with inverse scan direction. The relationship between the dimensionless net peak current and the logarithm of dimensionless rate constant of adsorption is a curve with a minimum and a maximum. For this reason the ratio of real net peak current and the square-root of frequency is a non-linear function of the logarithm of frequency and exhibits either a maximum or a minimum. The frequency of extreme serves for the estimation of the rate constant: log(k ads /D 1/2 ) = log(k*ads )crit + 0.5 log f crit , where (k*ads )crit is a critical dimensionless rate constant of adsorption. Square-wave voltammetry is sensitive to the kinetics of adsorption if k ads 2 cm s−1 [...]
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