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Biomimetic Surface with Tunable Frictional Anisotropy Enabled by Photothermogenesis‐Induced Supporting Layer Rigidity Variation

Zhongying Ji, Changyou Yan, Shuanhong Ma, Xiaoqin Zhang, Xin Jia, Xiaolong Wang, Feng Zhou

Year
2018
Citations
21

Abstract

Abstract Anisotropic friction of widespread biological surfaces with micro‐ and nanostructures oriented to supporting layer is proved to be crucial for the purpose of locomotion or transporting items in nature, which is therefore attracting extensive attention. Herein, variation of supporting layer rigidity induced dynamic control of anisotropic friction of biomimetic surface with structures oriented to supporting substrate is demonstrated. The biomimetic surface with oriented hook‐like spines microstructures embedded in polymeric substrate is fabricated by three‐dimensional (3D) printing followed by transfer reproduction. Incorporation of Fe 3 O 4 nanoparticles with excellent near‐infrared (NIR)/infrared (IR) photothermogenesis in the substrate results in its variable rigidity with light on/off, which achieves the tunable anisotropic friction performance of the biomimetic surface. A proof‐of‐concept device with the function of Velcro type strip is demonstrated to unsnap the fastener by remote NIR/IR light, revealing its promising for designing intelligent control devices. It is believed that this novel anisotropic friction controllable system with photothermogenesis‐induced supporting layer rigidity variation will provide wide and potential applications in various fields including sensors, robots, and other bionic devices.

Keywords

Materials scienceRigidity (electromagnetism)AnisotropyNanotechnologyNanoparticleSubstrate (aquarium)Composite materialOptoelectronicsOptics

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