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Cobalt MOF‐Based Porous Carbonaceous Spheres for Multimodal Soft Actuator Exhibiting Intricate Biomimetic Motions

Ashhad Kamal Taseer, Saewoong Oh, Ji‐Seok Kim, Mousumi Garai, Hyunjoon Yoo, Van Hiep Nguyen, Yang Yang, Mannan Khan, Manmatha Mahato, Il‐Kwon Oh

2024Advanced Materials12 citationsDOIOpen Access PDF

Abstract

Abstract The advancement of active electrode materials is essential to meet the demand for multifaceted soft robotic interactions. In this study, a new type of porous carbonaceous sphere (PCS) for a multimodal soft actuator capable of both magnetoactive and electro‐ionic responses is reported. The PCS, derived from the simultaneous oxidative and reductive breakdown of specially designed cobalt‐based metal–organic frameworks (Co‐MOFs) with varying metal‐to‐ligand ratios, exhibits a high specific surface area of 529 m 2 g −1 and a saturated magnetization of 142.7 Am 2 kg −1 . The size of the PCS can be controlled through the Ostwald ripening mechanism, while the porous structure can be regulated by adjusting the metal‐to‐ligand mol ratio. Its exceptional compatibility with poly(3,4‐ethylene‐dioxythiophene)‐poly(styrenesulfonate) enables the creation of uniform electrode, crucial for producing soft actuators that work in both magnetic and electrical fields. Operated at an ultralow voltage of 1 V, the PCS‐based actuator generates a blocking force of 47.5 mN and exhibits significant bending deflection even at an oscillation frequency of 10 Hz. Employing this simultaneous multimodal actuation ensures the dynamic and complex motions of a balancing bird robot and a dynamic eagle robot. This advancement marks a significant step toward the realization of more dynamic and versatile soft robotic systems.

Topics & Concepts

Materials scienceActuatorCobaltMetal-organic frameworkPorosityElectrodeNanotechnologyChemical engineeringDeflection (physics)BiomimeticsOstwald ripeningIonic bondingComposite materialAdsorptionElectrical engineeringIonQuantum mechanicsOrganic chemistryOpticsChemistryPhysicsMetallurgyEngineeringPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsMicro and Nano RoboticsCharacterization and Applications of Magnetic Nanoparticles