Active Micromotor Systems Built from Passive Particles with Biomimetic Predator–Prey Interactions

Inspired by chasing–escaping behaviors of predator and swarming prey in nature, here we demonstrate a concept to create active micromotor systems from two species of passive microparticles with biomimetic predator–prey interactions. In this concept, the biomimetic predator–prey interactions are established in a binary particle system comprising the diffusiophoretic attractive microparticles (prey particles) and the diffusiophoretic repulsive ones (predator particles). In the absence of additional chemical fuels and external fields, the predator particles are attracted by and constantly chase the swarming prey particles, which, in response, escape from the former and show dynamic group reconfigurations because of the local repulsion. Based on this concept, various synthetic active micromotor systems have been demonstrated, including active ZnO–TiO2, Ag3PO4–TiO2, and ZnO–AgBr micromotor systems. As the predator and prey particles are powered by each other through the biomimetic predator–prey interactions, t...