AI Article Synopsis
- Human skin has multiple layers that provide protection, sensing, and support, and creating electronic skin (E-skin) like it has important applications in health, prosthetics, and robotics.
- This study presents a new polymer system that mimics the structure of human skin with a hydrogel for the "dermis" and a nanoporous film for the "epidermis," incorporating sensory functions.
- The E-skin features include moisture protection, tactile sensing through nanogenerators, and temperature/pressure detection using gold nanowire sensors, making it a promising method for synthetic skin replication.
Article Abstract
Human skin comprises multiple hierarchical layers that perform various functions such as protection, sensing, and structural support. Developing electronic skin (E-skin) with similar properties has broad implications in health monitoring, prosthetics, and soft robotics. While previous efforts have predominantly concentrated on sensory capabilities, this study introduces a hierarchical polymer system that not only structurally resembles the epidermis-dermis bilayer structure of skin but also encompasses sensing functions. The system comprises a polymeric hydrogel, representing the "dermis", and a superimposed nanoporous polymer film, forming the "epidermis". Within the film, interconnected nanoparticles mimic the arrangement of interlocked corneocytes within the epidermis. The fabrication process employs a robust in situ interfacial precipitation polymerization of specific water-soluble monomers that become insoluble during polymerization. This process yields a hybrid layer establishing a durable interface between the film and hydrogel. Beyond the structural mimicry, this hierarchical structure offers functionalities resembling human skin, which includes (1) water loss protection of hydrogel by tailoring the hydrophobicity of the upper polymer film; (2) tactile sensing capability via self-powered triboelectric nanogenerators; (3) built-in gold nanowire-based resistive sensor toward temperature and pressure sensing. This hierarchical polymeric approach represents a potent strategy to replicate both the structure and functions of human skin in synthetic designs.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10870077 | PMC |
| http://dx.doi.org/10.1002/advs.202309006 | DOI Listing |
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