Programmable Shape Morphing Metasponge

Programmable Shape Morphing Metasponge

Smart materials respond to environmental signals by changing their microstructure and physical properties. Programming multiple behaviors and functions into a single material could increase its utility and adaptability to ever‐changing environmental conditions. A swellable and stretchable metamateri...

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Bibliographic Details
Published in:Advanced intelligent systems Vol. 5; no. 8
Main Authors: Soto, Fernando, Tsui, Annie, Surappa, Sushruta, Ahmed, Rajib, Wang, Jie, Kılınç, Ufuk, Akin, Demir, Demirci, Utkan
Format: Journal Article
Language:English
Published: Weinheim John Wiley & Sons, Inc 01-08-2023
Wiley
Subjects:
Actuation
Actuators
Aqueous solutions
Biomedical materials
Composite materials
Electronic components
Hydrogels
Ions
liquid sampling
Metamaterials
Morphing
multifunctional
Optical properties
Physical properties
responsive materials
Smart materials
Sodium
soft robots
Solvents
Stealth technology
swelling
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Summary:Smart materials respond to environmental signals by changing their microstructure and physical properties. Programming multiple behaviors and functions into a single material could increase its utility and adaptability to ever‐changing environmental conditions. A swellable and stretchable metamaterial hydrogel or “metasponge” engineered to morph into customized sizes and shapes that dynamically tune its physical properties and functions is reported. Multiple case studies that take advantage of the morphing properties of the metasponge, including robotic actuation, light guidance, optical and sonic invisibility (“cloaking”), adaptation of propulsion mode, sampling, and multiple biomedical applications, are illustrated. Developing multifunctional smart materials in which logic is programmed into the materials rather than electronic components could pave a new path to autonomy and dynamic responses in soft robots, sensors, and actuators. A metamaterial hydrogel or “metasponge” that can morph into customized sizes and shapes, dynamically tuning its physical properties and functions, is reported. The use of the metaspoge for robotic actuation, light guidance, camouflage, sampling, and biomedical applications is demonstrated. Multifunctional smart materials with programmed logic could provide dynamic responses in soft robots, sensors, and actuators.
ISSN:2640-4567
2640-4567
DOI:10.1002/aisy.202300043