Excreted biological fluids represent a matrix rich in useful biomarkers that can be correlated with a vast number of medical conditions and physiological processes, for both diagnostic and therapeutic purposes. Among the plethora of medically relevant analytes, the calcium ion is a target of prime interest, as it is present in many biofluids such as saliva, sweat, and wound exudate. Its concentration can be associated with a variety of afflictions, such as osteoporosis, periodontal diseases, kidney stone formation, parathyroid gland activity, and impaired wound healing. In this work, we present a novel device architecture for the potentiostatic, reference electrode-free detection of calcium, renovating the original organic electrochemical transistor (OECT) model by Wrighton. The sensing event takes place on the gate, functionalized with a Ca2+-selective membrane, whose potentiometric shift is used to modulate the current flowing through a poly(3,4-ethylenedioxythiophene) perchlorate (PEDOT:ClO4) interdigitated channel. Calcium sensing was performed in buffer solutions, reporting a linear range between 0.002 and 19 mM. The sensor proved to cover the biologically relevant range for calcium ion concentrations in complex media, using synthetic wound exudate as a model biomatrix, and it reported excellent selectivity under exposure to high concentrations of interfering species.
Arcangeli, D., Mariani, F., Gualandi, I., Ragnucci, M., Decataldo, F., Bonafè, F., et al. (2025). Potentiometric Detection of Calcium Ions Using an Organic Electrochemical Transistor. ACS OMEGA, 10(29), 32202-32215 [10.1021/acsomega.5c03720].
Potentiometric Detection of Calcium Ions Using an Organic Electrochemical Transistor
Arcangeli, DInvestigation
;Mariani, FConceptualization
;Gualandi, ISupervision
;Ragnucci, MFormal Analysis
;Decataldo, FFormal Analysis
;Bonafè, FData Curation
;Tonelli, DFunding Acquisition
;Fraboni, BFunding Acquisition
;Scavetta, E
Project Administration
2025
Abstract
Excreted biological fluids represent a matrix rich in useful biomarkers that can be correlated with a vast number of medical conditions and physiological processes, for both diagnostic and therapeutic purposes. Among the plethora of medically relevant analytes, the calcium ion is a target of prime interest, as it is present in many biofluids such as saliva, sweat, and wound exudate. Its concentration can be associated with a variety of afflictions, such as osteoporosis, periodontal diseases, kidney stone formation, parathyroid gland activity, and impaired wound healing. In this work, we present a novel device architecture for the potentiostatic, reference electrode-free detection of calcium, renovating the original organic electrochemical transistor (OECT) model by Wrighton. The sensing event takes place on the gate, functionalized with a Ca2+-selective membrane, whose potentiometric shift is used to modulate the current flowing through a poly(3,4-ethylenedioxythiophene) perchlorate (PEDOT:ClO4) interdigitated channel. Calcium sensing was performed in buffer solutions, reporting a linear range between 0.002 and 19 mM. The sensor proved to cover the biologically relevant range for calcium ion concentrations in complex media, using synthetic wound exudate as a model biomatrix, and it reported excellent selectivity under exposure to high concentrations of interfering species.| File | Dimensione | Formato | |
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