This research presents the development of an ultra-stretchable bioelectronic device that adheres perfectly to the skin by combining bio-inspired octopus sucker structures with a kirigami pattern. This technology maintains stable electrical performance even under repeated stretching, allowing for the accurate measurement of biosignals like electrocardiograms (ECG) and electromyograms (EMG) during body movements.
Wet Bio-Adhesion Technology Using Flexible Micro-Cylinders Inspired by a Beetle’s Structure
This study introduces a technology that maintains high adhesion even in wet or moist environments by developing perforated micro-cylinders (PMMCs) inspired by the footpads of a diving beetle. Unlike conventional dry-adhesion techniques, this patch uses an oil-loadable...
