Add to ORKGInspired by nature, diverse biomimetic hydrogel actuators are fabricated and become one of the most essential components of bionics research. Usually, the anisotropic structure of a hydrogel actuator is generated at the early fabrication process, only a specific shape transformation behavior can be produced under external stimuli, and thus has limited the development of hydrogel actuators toward the biomimetic shape deformation behavior. Herein, a novel bilayer hydrogel having a thermoresponsive actuating layer and a metal ion-responsive memorizing layer is proposed, therefore, a 2D hydrogel film can be fixed into various 3D shapes via supramolecular metal-ligand coordination, with further realizing programmable 4D shape deformation under t...
Shape deformation hydrogels, which are one of the most promising and essential classes of stimuli-re...
Hydrogel actuators were prepared by combining ionoprinting technique with reversible metal ion coord...
We report multi-responsive and double-folding bilayer hydrogel sheet actuators, whose directional be...
Inspired by nature, diverse biomimetic hydrogel actuators are fabricated and become one of the most ...
A general strategy for fabricating a double layer self-deformed shape memory hydrogel which includes...
As one of the most promising intelligent materials, polymeric hydrogel actuators could produce rever...
Rapid and reversible actuation and shape memory effects are critical for biomimetic soft actuators b...
[[abstract]]Development of hydrogel-based actuators with programmable deformation is an important to...
Development of hydrogel-based actuators with programmable deformation is an important topic that aro...
Inspired by shape-morphing organisms in nature, researchers have developed various hydrogels with st...
We present the assembly of asymmetric two-layer hybrid DNA-based hydrogels revealing stimuli-trigger...
In this thesis, the topics around stimuli-responsive hydrogel actuators were discussed. In each proj...
An effective approach to develop a novel macroscopic anisotropic bilayer hydrogel actuator with on-o...
Hydrogel actuators that deform in response to external stimuli have promising applications in divers...
Poor, nontunable mechanical properties as well as finite shape memory performance pose a barrier to ...
Shape deformation hydrogels, which are one of the most promising and essential classes of stimuli-re...
Hydrogel actuators were prepared by combining ionoprinting technique with reversible metal ion coord...
We report multi-responsive and double-folding bilayer hydrogel sheet actuators, whose directional be...
Inspired by nature, diverse biomimetic hydrogel actuators are fabricated and become one of the most ...
A general strategy for fabricating a double layer self-deformed shape memory hydrogel which includes...
As one of the most promising intelligent materials, polymeric hydrogel actuators could produce rever...
Rapid and reversible actuation and shape memory effects are critical for biomimetic soft actuators b...
[[abstract]]Development of hydrogel-based actuators with programmable deformation is an important to...
Development of hydrogel-based actuators with programmable deformation is an important topic that aro...
Inspired by shape-morphing organisms in nature, researchers have developed various hydrogels with st...
We present the assembly of asymmetric two-layer hybrid DNA-based hydrogels revealing stimuli-trigger...
In this thesis, the topics around stimuli-responsive hydrogel actuators were discussed. In each proj...
An effective approach to develop a novel macroscopic anisotropic bilayer hydrogel actuator with on-o...
Hydrogel actuators that deform in response to external stimuli have promising applications in divers...
Poor, nontunable mechanical properties as well as finite shape memory performance pose a barrier to ...
Shape deformation hydrogels, which are one of the most promising and essential classes of stimuli-re...
Hydrogel actuators were prepared by combining ionoprinting technique with reversible metal ion coord...
We report multi-responsive and double-folding bilayer hydrogel sheet actuators, whose directional be...