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Abstract
A flexible glove-based electrochemical biosensor with highly stretchable printed electrode
system has been developed as a wearable point-of-use screening tool for defense and
food security applications. This disposable-mechanically robust "lab-on-a-glove" integrates
a stretchable printable enzyme-based biosensing system and active surface for swipe
sampling on different fingers, and is coupled with a compact electronic interface
for electrochemical detection and real-time wireless data transmission to a smartphone
device. Stress-enduring inks are used to print the electrode system and the long serpentine
connections to the wireless electronic interface. Dynamic mechanical deformation,
bending, and stretching studies illustrate the resilience and compliance of the printed
traces against extreme mechanical deformations expected for such on-glove sampling/sensing
operation. An organophosphorus hydrolase (OPH)-based biosensor system on the index
finger enables rapid on-site detection of organophosphate (OP) nerve-agent compounds
on suspicious surfaces and agricultural products following their swipe collection
on the thumb finger. The new wireless glove-based biosensor system offers considerable
promise for field screening of OP nerve-agents and pesticides in defense and food-safety
applications, with significant speed and cost advantages. Such "lab-on-a-glove" demonstration
opens the area of flexible wearable sensors to future on-the-hand multiplexed chemical
detection in diverse fields.