Litcius/Paper detail

Novel Acid-Driven Bioinspired Self-Resettable Bilayer Hydrogel Actuator Mimicking Natural Muscles

Mengmeng Nan, Kangle Guo, Tao Jia, Guangtong Wang, Shaoqin Liu

2024ACS Applied Materials & Interfaces32 citationsDOI

Abstract

Soft robots have great potential applications in manufacturing, disaster rescue, medical treatment, etc. Artificial muscle is one of the most important components of a soft robot. In previous years, hydrogel actuators that can be controllably deformed by the stimuli of external signals have been developed as good candidates for muscle-like materials. In this article, we successfully prepared a chemical fuel-driven self-resettable bilayer hydrogel actuator mimicking natural muscles with the aid of a new negative feedback reaction network. The actuator can temporarily deform upon the addition of H + (chemical fuel). Subsequently, H + accelerated the reaction between BrO 3 – and Fe(CN) 6 4–, which consume H + . It resulted in the spontaneous recovery of the pH as well as the shape of the actuator. Such an actuator exhibits a great similarity with natural muscles in actuation mechanisms and automaticity in the manipulation compared to the widely reported stimuli-responsive hydrogel actuators. This illustrates that fuel-driven self-resettable hydrogel is a promising dynamic material for mimicking the functions of living creatures.

Topics & Concepts

ActuatorMaterials scienceBilayerArtificial muscleCreaturesSoft roboticsRobotNanotechnologySelf-healing hydrogelsComputer scienceMembraneArtificial intelligenceNatural (archaeology)ChemistryPolymer chemistryArchaeologyHistoryBiochemistryAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsHydrogels: synthesis, properties, applications