Absorbance characterization of microsphere-based ion-selective optodes |
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Authors: | Ye Nan Wygladacz Katarzyna Bakker Eric |
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Institution: | Department of Chemistry, Purdue University, West Lafayette, IN 47907, United States |
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Abstract: | Ionophore-based microsphere sensors are characterized here in transmission mode. These sensors contain a lipophilic ionophore for the analyte cation, a chromoionophore for recognizing H+, and a lipophilic cation-exchanger. They function on the basis of an ion-exchange equilibration step where an increased concentration of analyte ion leads to increased level of extraction into the bulk of the microsphere, expelling protons in return and deprotonating the chromoionophore. Since the path length is variable across the microsphere, such bead-based sensors are normally characterized in fluorescence mode. In this paper, the response of the sensing microspheres is calculated from the ratio of transmitted light intensities at the absorbance peak maxima of the protonated and unprotonated forms of the chromoionophore. At a fixed position of the particle, the resulting responses are found to be independent of light scattering, incident light intensity and the shape or size of the microsphere. The responses of potassium-selective microspheres obtained by this method agree quantitatively with corresponding fluorescence-based data. |
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Keywords: | Absorbance Microsphere Fluorescence Ion-selective optical sensor Chromoionophore |
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