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Functional Destruction: Utilizing Sustainable Materials’ Physical Transiency for Electronics Applications

Tingyu Cheng, Taylor Tabb, Jung Wook Park, Eric M. Gallo, Aditi Maheshwari, Gregory D. Abowd, Hyunjoo Oh, Andreea Danielescu

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Abstract

Today’s electronics are manufactured to provide stable functionality and fixed physical forms optimized for reliable operation over long periods and repeated use. However, even when applications don’t call for such robustness, the permanency of these electronics comes with environmental consequences. In this paper, we describe an alternative approach that utilizes sustainable transient electronics whose method of destruction is also key to their functionality. We create these electronics through three different methods: 1) by inkjet printing conductive silver traces on poly(vinyl alcohol) (PVA) substrates to create water-soluble sensors; 2) by mixing a conductive beeswax material configured as a meltable sensor; and 3) by fabricating edible electronics with 3D printed chocolate and culinary gold leaf. To enable practical applications of these devices, we implement a fully transient and sustainable chipless RF detection system.

Topics & Concepts

ElectronicsPrinted electronicsRobustness (evolution)Conductive inkComputer scienceFlexible electronicsMaterials scienceNanotechnologyElectrical engineeringEngineeringLayer (electronics)GeneBiochemistryChemistrySheet resistanceAdvanced Sensor and Energy Harvesting MaterialsGreen IT and SustainabilityInnovative Human-Technology Interaction
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