Actuator Materials
High-modulus metallic actuators induce strain in a deformation layer through an electrochemical reaction on the metal surface, causing bending. These actuators boast the smallest radius of curvature among all electrically controlled microactuators, ranging from approximately 500 nanometers to a few micrometers while producing substantial driving forces at the microscale. Furthermore, they can operate efficiently within the electrochemical stability window of water.
Metamaterials
Metabots utilize a kirigami-inspired structure that allows them to dynamically adapt their shape, seamlessly transitioning between various configurations with distinct curvature profiles. This innovative metamaterial marks a significant leap forward in the design of microscale, continuous, flexible, and programmable robots, paving the way for a broad range of applications.
