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Programmable Reversible Shape Transformation of Hydrogels Based on Transient Structural Anisotropy

Kangkang Liu, Yue Zhang, Heqing Cao, Haonan Liu, Yuhui Geng, Wenhua Yuan, Jian Zhou, Zi Liang Wu, Guorong Shan, Yongzhong Bao, Qian Zhao, Tao Xie, Pengju Pan

2020Advanced Materials141 citationsDOI

Abstract

Stimuli-responsive shape-transforming hydrogels have shown great potential toward various engineering applications including soft robotics and microfluidics. Despite significant progress in designing hydrogels with ever more sophisticated shape-morphing behaviors, an ultimate goal yet to be fulfilled is programmable reversible shape transformation. It is reported here that transient structural anisotropy can be programmed into copolymer hydrogels of N-isopropylacrylamide and stearyl acrylate. Structural anisotropy arises from the deformed hydrophobic domains of the stearyl groups after thermomechanical programming, which serves as a template for the reversible globule-to-coil transition of the poly(N-isopropylacrylamide) chains. The structural anisotropy is transient and can be erased upon cooling. This allows repeated programming for reversible shape transformation, an unknown feature for the current hydrogels. The programmable reversible transformation is expected to greatly extend the technical scope for hydrogel-based devices.

Topics & Concepts

Self-healing hydrogelsMaterials scienceMorphingAnisotropyTransient (computer programming)Transformation (genetics)CopolymerMicrofluidicsSoft roboticsNanotechnologyComputer sciencePolymerComposite materialActuatorPolymer chemistryArtificial intelligenceChemistryOpticsPhysicsBiochemistryOperating systemGeneAdvanced Materials and MechanicsHydrogels: synthesis, properties, applicationsAdvanced Sensor and Energy Harvesting Materials