Biodegradable and Highly Deformable Temperature Sensors for the Internet of Things |
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Authors: | Giovanni A Salvatore Jenny Sülzle Filippo Dalla Valle Giuseppe Cantarella Francesco Robotti Petar Jokic Stefan Knobelspies Alwin Daus Lars Büthe Luisa Petti Norbert Kirchgessner Raoul Hopf Michele Magno Gerhard Tröster |
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Affiliation: | 1. Electronics Laboratory, ETH Zurich, Zurich, Switzerland;2. Laboratory of Thermodynamics in Emerging Technologies, ETH Zurich, Zurich, Switzerland;3. Integrated System Laboratory, ETH Zurich, Zurich, Switzerland;4. Institute of Agricultural Sciences, ETH Zurich, Zürich, Switzerland;5. Institute of Mechanical Systems, ETH Zurich, Zürich, Switzerland |
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Abstract: | Recent advances in biomaterials, thin film processing, and nanofabrication offer the opportunity to design electronics with novel and unique capabilities, including high mechanical stability and biodegradation, which are relevant in medical implants, environmental sensors, and wearable and disposable devices. Combining reliable electrical performance with high mechanical deformation and chemical degradation remains still challenging. This work reports temperature sensors whose material composition enables full biodegradation while the layout and ultrathin format ensure a response time of 10 ms and stable operation demonstrated by a resistance variation of less than 0.7% when the devices are crumpled, folded, and stretched up to 10%. Magnesium microstructures are encapsulated by a compostable‐certified flexible polymer which exhibits small swelling rate and a Young's modulus of about 500 MPa which approximates that of muscles and cartilage. The extension of the design from a single sensor to an array and its integration onto a fluidic device, made of the same polymer, provides routes for a smart biodegradable system for flow mapping. Proper packaging of the sensors tunes the dissolution dynamics to a few days in water while the connection to a Bluetooth module demonstrates wireless operation with 200 mK resolution prospecting application in food tracking and in medical postsurgery monitoring. |
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Keywords: | biodegradable materials electronics flexible sensors sensors stretchable sensors |
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