FABRICATION AND OPTIMIZATION OF AN ORGANIC ELECTROCHEMICAL TRANSISTOR-BASED WEARABLE SENSOR FOR GLUCOSE MONITORING APPLICATIONS
Antonio Costanza
FABRICATION AND OPTIMIZATION OF AN ORGANIC ELECTROCHEMICAL TRANSISTOR-BASED WEARABLE SENSOR FOR GLUCOSE MONITORING APPLICATIONS.
Rel. Matteo Cocuzza, Simone Luigi Marasso, Alberto Ballesio. Politecnico di Torino, Master of science program in Nanotechnologies For Icts, 2024
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Abstract
Organic Electrochemical Transistors (OECTs) represent a very promising technology for biosensing applications, and flexible wearable electronics is surely a fertile field for OECTs-based devices. The purpose of this thesis project is to improve and optimize an OECT-based sensor for a flexible wearable device, able to detect the glucose level in the patient’s sweat in a non-invasive way. In fact, the glucose concentration in sweat varies depending on the health conditions of the patient, particularly for diabetic ones. OECTs are widely exploited in this sector due to the significant amplification and capability of transduction of the signal, the low operating voltages and the biocompatibility.
The device was developed thanks to the collaboration between ChiLab-Materials and Microsystems Laboratory (Politecnico di Torino) in Chivasso and the Institute of Materials for Electronics and Magnetism (IMEM) of the National Research Council (CNR) in Parma
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