Oscillating membranes: modeling and controlling autonomous shape-transforming sheets

Abstract

Living organisms have mastered the dynamic control of internal stresses to perform an array of functions, such as change shape and locomote. State-of-the-art attempts to replicate this ability in synthetic materials are rudimentary in comparison. Here we present the first experimental realization of a self-oscillating gel in a thin sheet configuration. We show that internal signaling produces stresses that drive lifelike shape changes, that the material's response is accurately modelled with the theory of non-Euclidean elasticity and that the internal signaling can be programmed with light. Together, our results demonstrate a complete route for developing fully autonomous soft machines.