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Large‐Scale Patterning of Reactive Surfaces for Wearable and Environmentally Deployable Sensors

Giusy Matzeu, Laia Mogas‐Soldevila, Wenyi Li, Arin Naidu, Trent H. Turner, Roger Gu, Patricia R. Blumeris, Patrick Song, Daniel G. Pascal, Giulia Guidetti, Meng Li, Fiorenzo G. Omenetto

2020Advanced Materials62 citationsDOI

Abstract

Wearable interfaces are central to multiple healthcare and wellness strategies encompassing diet and nutrition, personalized health monitoring, and performance optimization. Specifically, the advent of flexible electronic formats coupled with microfluidic interfaces has resulted in sophisticated conformal devices for biofluid sampling and quantification. Here, a complementary approach is presented to wearable sensing by using a large-scale, conformal, distributed format that relies on the use of biomaterial-based inks to print and stabilize deterministic patterns of biochemical reporters with high resolution. Colorimetric devices can vary in size and a sensing T-shirt based on a colorimetric pattern is developed to illustrate the utility that such formats can add to the wearable interface space. Image analysis allows parameter variation to be tracked in real-time, yielding a map-like format of distributed biophysical response.

Topics & Concepts

Wearable computerWearable technologyInterface (matter)MicrofluidicsScale (ratio)Computer scienceNanotechnologyMaterials scienceHuman–computer interactionEmbedded systemMaximum bubble pressure methodQuantum mechanicsPhysicsParallel computingBubbleAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsPolydiacetylene-based materials and applications
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