Ionic strength-independent potentiometric cation concentration sensing on paper using a tetrabutylammonium-based reference electrode

[Display omitted] •A second ion-selective electrode allows for the potentiometric measurement of concentration, rather than activity.•The approach is integrated into a paper-based analytical device by preloading with the reference ion.•The resulting μPAD system shows independence of sample volume an...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2021-11, Vol.346, p.130527, Article 130527
Main Authors: Soda, Yoshiki, Bakker, Eric
Format: Article
Language:English
Subjects:
Activity coefficients
Electrodes
Green tea
Ion-selective electrodes
Ions
Mathematical analysis
Paper-based analytical devices
Potentiometric detection of concentration
Tetrabutylammonium reference element
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Summary:[Display omitted] •A second ion-selective electrode allows for the potentiometric measurement of concentration, rather than activity.•The approach is integrated into a paper-based analytical device by preloading with the reference ion.•The resulting μPAD system shows independence of sample volume and robustness to sample ionic strength.•Resulting concentration data show good correlation with AES (Atomic Emission Spectroscopy) analysis. Ion-selective electrodes (ISEs) are known not to strictly measure the concentration of ions, but their activities. The relationship between the two varies with ionic strength, which may result in measurement errors if samples of variable ionic strength are measured and concentration is chosen as the sensor output. Traditionally, concentration readings from potentiometric signals have been possible if the ionic strength of the solution matches that of the calibrant or is made constant by an ionic strength adjusting buffer. In this work, a direct concentration output is realized for a potassium-selective electrode by using a TBA+ (tetrabutylammonium)-selective membrane as the reference electrode and preloading a TBA+ salt in the solution channel. It is shown that the activity coefficients for K+ and TBA+ change similarly to effectively cancel out the influence of ionic strength, allowing for direct potentiometric concentration measurements with deviations from ideality of < 1 mV. The approach was realized on paper-based analytical devices (PADs). The potentiometric concentration data on paper were found to be independent of ionic strength and, owing to their geometric feature, of sample volume. K+ concentration in grape juice, infused water and green tea analyzed by the newly developed PADs showed good correspondence with Atomic Emission Spectroscopy (AES).
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.130527