Litcius/Paper detail

A bioinspired snap-through metastructure for manipulating micro-objects

Xuan Zhang, Yue Wang, Zhihao Tian, Manar Samri, Karsten Moh, Robert M. McMeeking, René Hensel, Eduard Arzt

2022Science Advances68 citationsDOIOpen Access PDF

Abstract

Micro-objects stick tenaciously to each other—a well-known show-stopper in microtechnology and in handling micro-objects. Inspired by the trigger plant, we explore a mechanical metastructure for overcoming adhesion involving a snap-action mechanism. We analyze the nonlinear mechanical response of curved beam architectures clamped by a tunable spring, incorporating mono- and bistable states. As a result, reversible miniaturized snap-through devices are successfully realized by micron-scale direct printing, and successful pick-and-place handling of a micro-object is demonstrated. The technique is applicable to universal scenarios, including dry and wet environment, or smooth and rough counter surfaces. With an unprecedented switching ratio (between high and low adhesion) exceeding 10 4 , this concept proposes an efficient paradigm for handling and placing superlight objects.

Topics & Concepts

SnapComputer scienceNanotechnologyMaterials scienceComputer graphics (images)Advanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsModular Robots and Swarm Intelligence