Abstract
The research on ion-measuring devices has seen a rapid expansion in the last years as a consequence of the growing interest in wearable sensors for biofluids analysis and in portable devices for remote or in-line water and food quality monitoring. As a result, an increasing number of researchers is approaching the field of ion-selective sensors. Despite the apparently simple transduction principle, the theory behind their working mechanism is far from trivial and a correct understanding is necessary for an optimal exploitation of the technology. In current literature, imprecise characterization procedures lead to the definition of misleading sensors parameters, which cannot be effectively used for comparisons. In fact, some unique definitions and procedures applies to this category of sensors, which significantly differ from the traditional ones applied in sensing research. This tutorial aims at highlighting the basic thermodynamic theory and the correct experimental practice for the accurate and reproducible characterization of potentiometric ion-sensors. The most important requirements and design considerations on hardware and software interfaces will also be discussed to give a complete overview of the various aspects of current technology to people approaching this promising area of sensing.
Highlights
T HE research on ion-sensing is expanding rapidly in various fields, from medicine, to food and water quality monitoring, as well as control of industrial production
Ion-Selective Electrodes (ISEs) are potentiometric sensors based on the deposition on the sensor surface of an Ion-Selective Membrane (ISM) that contains a species, called the ionophore, that selectively binds to the target ion
Solid Contacts Based on Nanostructured Layers: Nanostructured SCs are based on the formation of an electrical double layer at the membrane/electrode interface for ion-to-electron transduction: the trapping of ions on one side of the interface thanks to the role of the ISM provokes the accumulation of electrons and holes on the other side; this causes the generation of an asymmetric capacitor
Summary
T HE research on ion-sensing is expanding rapidly in various fields, from medicine, to food and water quality monitoring, as well as control of industrial production. Precise conditioning protocols must be applied to obtain accurate and comparable values These peculiar characteristics of ISEs are often confused and ignored by many experts in the field of sensing that approach ions for the first time. This is followed by the description of the working principle of conventional ISEs and their evolution towards all-solid-state systems for miniaturized and portable applications are reported.
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