Stretchable ionic-electronic bilayer hydrogel electronics enabled in situ detection of solid-state epidermal biomarkers

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Abstract

Abstract Continuous and in situ detection of biomarkers in biofluids (e.g., sweat) can provide critical health data but is limited by biofluids accessibility. Here, we report a sensor design that enables in situ detection of solid-state biomarkers ubiquitously present on human skin. We deploy an ionic-electronic bilayer hydrogel to facilitate the sequential dissolution, diffusion and electrochemical reaction of solid-state analytes. We demonstrate continuous monitoring of water-soluble analytes (i.e., solid lactate) and water-insoluble analytes (i.e., solid cholesterol) with ultralow detection limits of 0.51 nmol cm-2 and 0.26 nmol cm-2, respectively. Additionally, the bilayer hydrogel electrochemical interface reduces motion artifacts by three times compared to conventional liquid-sensing electrochemical interfaces. In a clinical study, solid-state epidermal biomarkers measured by our stretchable wearable sensors showed a high correlation with biomarkers in human blood and dynamically correlated to physiological activities. These results present routes to universal platforms for biomarker monitoring without the need for biofluid acquisition.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
unpaywall
last seen: 2026-05-30T02:00:01.510937+00:00
License: CC-BY-4.0