by admin | Sep 17, 2025 | Pubilcation
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...
by admin | Sep 17, 2025 | Pubilcation
This research developed a smart patch that mimics the diving beetle’s suction cup structure to collect biofluids from the skin surface and measure pH, enabling the diagnosis of skin diseases. The patch provides real-time pH data for conditions like atopic...
by admin | Sep 17, 2025 | Pubilcation
This study proposes an effective treatment for atopic dermatitis using an ultra-adhesive hydrogel patch (DSS) that mimics the asymmetric structure of a beetle’s wing. The patch maximizes adhesion to the skin, ensuring deep and uniform drug delivery. The research...
by admin | Sep 17, 2025 | Pubilcation
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...
by admin | Sep 17, 2025 | Pubilcation
This paper introduces a bioinspired transdermal patch technology that uses negative pressure, or suction, upon skin attachment to enhance drug delivery efficiency. It discusses how this technology can effectively deliver large-molecule drugs with less pain compared to...
by admin | Sep 16, 2025 | Pubilcation
This paper introduces a novel method for effective transdermal delivery of extracellular vesicles (EVs) using a pain-free, dual-amplified microneedle-cupping patch (MN@EV/SC). The patch utilizes shorter microneedles to minimize pain while deforming the skin’s...
