Journal article
Potentiometric sensors with ion-exchange donnan exclusion membranes
Analytical Chemistry, Vol.85(13), pp.6208-6212
2013
Abstract
Potentiometric sensors that exhibit a non-Hofmeister selectivity sequence are normally designed by selective chemical recognition elements in the membrane. In other situations, when used as detectors in separation science, for example, membranes that respond equally to most ions are preferred. With so-called liquid membranes, a low selectivity is difficult to accomplish since these membranes are intrinsically responsive to lipophilic species. Instead, the high solubility of sample lipids in an ionophore-free sensing matrix results in a deterioration of the response. We explore here potentiometric sensors on the basis of ion-exchange membranes commonly used in fuel cell applications and electrodialysis, which have so far not found their way into the field of ion-selective electrodes. These membranes act as Donnan exclusion membranes as the ions are not stripped of their hydration shell as they interact with the membrane. Because of this, lipophilic ions are no longer preferred over hydrophilic ones, making them promising candidates for the detection of abundant ions in the presence of lipophilic ones or as detectors in separation science. Two types of cation-exchanger membranes and one anion-exchange membrane were characterized, and potentiometric measuring ranges were found to be Nernstian over a wide range down to about 10 μM concentrations. Depending on the specific membrane, lipophilic ions gave equal response to hydrophilic ones or were even somewhat discriminated. The medium and long-term stability and reproducibility of the electrode signals were found to be promising when evaluated in synthetic and whole blood samples.
Details
- Title
- Potentiometric sensors with ion-exchange donnan exclusion membranes
- Authors
- E Grygolowicz-Pawlak (Author) - University of GenevaG A Crespo (Author) - University of GenevaM G Afshar (Author) - University of GenevaG Mistlberger (Author) - University of GenevaEric Bakker (Author) - University of Geneva
- Publication details
- Analytical Chemistry, Vol.85(13), pp.6208-6212
- Publisher
- American Chemical Society
- Date published
- 2013
- DOI
- 10.1021/ac400470n
- ISSN
- 0003-2700
- Copyright note
- Copyright © 2013 American Chemical Society
- Organisation Unit
- University of the Sunshine Coast, Queensland
- Language
- English
- Record Identifier
- 99449075302621
- Output Type
- Journal article
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- Web Of Science research areas
- Chemistry, Analytical