posted on 2022-01-06, 03:29authored byJie Zhuo, Baoyi Wu, Jiawei Zhang, Yu Peng, Huanhuan Lu, Xiaoxia Le, Shuxin Wei, Tao Chen
The
deformable diversity of organisms in nature has inspired the
development of bionic hydrogel actuators. However, the anisotropic
structures of hydrogel actuators cannot be altered after the fabrication
process, which restricts hydrogel actuators to provide complex and
diverse shape deformations. Herein, we propose a dual programming
method to generate numerous anisotropic structures from initial isotropic
gelatin-containing hydrogels; the isotropic hydrogel blocks could
be first assembled into anisotropic structures based on the coil-triple
helix transition of gelatin, and then, the assembled hydrogels could
further be fixed into various temporary anisotropies, so that they
can produce complex and diverse deformations under the stimulation
of pH. In addition, the shape programming and deformation behaviors
are reversible. This dual programming method provides more potential
for the application of hydrogel actuators in soft robots and bionics.