Iwona Bedlechowicz-Sliwakowska scite author profile

Iwona Bedlechowicz-Sliwakowska

2Publications

80Citation Statements Received

47Citation Statements Given

How they've been cited

103

How they cite others

Affiliations

Åbo Akademi University, University of Warsaw, AGH University of Krakow

Publications

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Time-Dependent Phenomena in the Potential Response of Ion-selective Electrodes Treated by the Nernst−Planck−Poisson Model. 1. Intramembrane Processes and Selectivity

Lingenfelter

Bedlechowicz-Sliwakowska

Sokalski

et al. 2006

Anal. Chem.

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The variability of selectivity coefficients, resulting from potential changes over time and the concentration ratio of primary to interfering ions, impedes many practical applications of ion-selective electrodes (ISEs). Existing theoretical interpretations of ISE selectivity are restricted by severe assumptions, such as steady state and electroneutrality, which hinder theorizing on this problem. For this reason, for the first time, the Nernst-Planck-Poisson equations are used to predict and visualize the selectivity variability over time and the concentration ratio. Special emphasis is placed on the non-Nernstian response in the measurements with liquid-ion-exchanger- and neutral-carrier-based ISEs. The conditions under which measured selectivity coefficients are true (unbiased) are demonstrated.

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Ion-selective electrode for measuring low Ca2+ concentrations in the presence of high K+, Na+ and Mg2+ background

Bedlechowicz-Sliwakowska

Lingenfelter

Sokalski

et al. 2006

Anal Bioanal Chem

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In this work, ion-selective electrodes for calcium ion were investigated. Two ionophores were used in the membranes: ETH 1001 and ETH 129. An internal filling solution buffered for primary ion was used that allowed the lower detection limit to be decreased down to 10(-8.8) M. Theoretical and experimental electrode characteristics pertaining to both primary and interfering ions are discussed. Better behavior was obtained with the electrode prepared with ETH 129 in the membrane. This electrode would be the most likely candidate for obtaining a low Ca(2+) detection limit in measurements performed with high K(+), Na(+), Mg(2+) background, which is found inside the cells of living organisms, for example. The potentiometric response of the electrode in solutions containing main and interfering ions is in good agreement with simulated curves obtained using the Nernst-Planck-Poisson (NPP) model.

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