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...
by admin | Sep 16, 2025 | Pubilcation
This study introduces a cellulose nanofiber (CNF)-based electronic patch that mimics the suction cups of an octopus. The patch adheres effectively to the skin, enhancing transdermal drug delivery and generating microcurrents to improve skin condition.
by admin | Sep 16, 2025 | Pubilcation
This paper introduces a novel bio-inspired adhesive patch that mimics the biomechanical features of an octopus sucker. By applying negative pressure to the skin, the patch temporarily widens the stratum corneum, enabling efficient drug delivery while maintaining...
by admin | Sep 16, 2025 | Pubilcation, 미분류
This paper presents a technology that enhances wet adhesion by mimicking the hierarchical structures of amphibians and octopi. The research evaluates the adhesive strength, durability, and biosignal sensing capabilities of a skin electrode patch, demonstrating...
