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Wireless, battery-free, and real-time monitoring of water permeation across thin-film encapsulation

Massimo Mariello, James Rosenthal, Francesco Cecchetti, Mingxiang Gao, Anja K. Skrivervik, Y. Leterrier, Stéphanie P. Lacour

2024Nature Communications21 citationsDOIOpen Access PDF

Abstract

Long-term bioelectronic implants require stable, hermetic encapsulation. Water and ion ingress are challenging to quantify, especially in miniaturized microsystems and over time. We propose a wireless and battery-free flexible platform leveraging backscatter communication and magnesium (Mg)-based microsensors. Water permeation through the encapsulation induces corrosion of the Mg resistive sensor thereby shifting the oscillation frequency of the sensing circuit. Experimental in vitro and in-tissue characterization provides information on the operation of the platform and demonstrates the robustness and accuracy of this promising method, revealing its significance for in-situ real-time monitoring of implanted bioelectronics.

Topics & Concepts

Encapsulation (networking)PermeationWirelessMaterials scienceNanotechnologyChemical engineeringComputer scienceChemistryMembraneTelecommunicationsComputer networkEngineeringBiochemistryAdvanced Sensor and Energy Harvesting MaterialsBluetooth and Wireless Communication TechnologiesModular Robots and Swarm Intelligence
Wireless, battery-free, and real-time monitoring of water permeation across thin-film encapsulation | Litcius