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This paper presents a hydrogel-based glucose sensor for future implantable applications employing an inductive sensing technique. The prototype system is based on an ultra-low power tunnel diode oscillator employing a 2 mm-diameter/10-turn sensing coil enclosed in a 3D-printed sealed sensor package. A 3 mm × 3 mm × 80 μm metallic sensing plate embedded in a 3 mm × 3 mm × 400 μm glucose-sensitive hydrogel...
This paper presents the feasibility study and investigation of an inductive sensing technique with respect to the swelling of hydrogel samples for implantable biochemical sensing applications. A prototype sensing system is implemented based on an ultra-low power tunnel diode oscillator employing a 3 mm-diameter, 10-turn sensing coil positioned at 100 μm away from a 5 mm × 5 mm metallic sensing plate...
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