Jiaojiao Guo scite author profile

Controlled tuning of interface adhesion is crucial to a broad range of applications, such as space technology, micro-fabrication, flexible electronics, robotics, and bio-integrated devices. Here, we show a robust and predictable method to continuously regulate interface adhesion by exciting the mechanical micro-vibration in the adhesive system perpendicular to the contact plane. An analytic model reveals the underlying mechanism of adhesion hysteresis and dynamic instability. For a typical PDMS-glass adhesion system, the apparent adhesion strength can be enhanced by 77 times or weakened to 0. Notably, the resulting adhesion switching timescale is comparable to that of geckos (15 ms), and such rapid adhesion switching can be repeated for more than 2 × 10 7 vibration cycles without any noticeable degradation in the adhesion performance. Our method is independent of surface microstructures and does not require a preload, representing a simple and practical way to design and control surface adhesion in relevant applications.

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One-dimensional linear elastic waves at moving property interface

Shui

Yue

Liu

et al. 2014

Wave Motion

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Fast Classification and Detection of Fish Images with YOLOv2

Wang

Liu

Zhang

et al. 2018

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Jiaojiao Guo

One-dimensional Sb2Se3 enabling ultra-flexible solar cells and mini-modules for IoT applications

Novel composites with asymmetrical elastic wave properties

Rapid and continuous regulating adhesion strength by mechanical micro-vibration

One-dimensional linear elastic waves at moving property interface

Fast Classification and Detection of Fish Images with YOLOv2

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