Intelligent Polymeric Small Architectures for Sustainable Bioelectronics interface
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초록
내용
To date, various top-down, bottom-up, or combination of both approaches have been proposed to fabricate bioinspired multiscale hierarchical architectures. Controlling geometric features such as size and biphasic property of tips, as well as curvatures benefited mimicking of the adhesive phenomena and structures of natural surfaces. In nature, the various interface phenomena of various hierarchical architectures have extensively drawn attention for developing intelligent materials and devices, including wet-repellent surfaces, dry-adhesives, bioelectronics, and soft robots. Polymeric small architectures have become important to address the issues of human-machine interactions for versatile applications. Here, advances in designs of biologically inspired adhesive architectures are reviewed in terms of distinct structural properties, attachment mechanisms to diverse surfaces by physical interactions, and noteworthy fabrication methods.