posted on 2022-04-26, 10:46authored byWenqing He, Xiaoqing Ming, Yang Xiang, Changgeng Zhang, He Zhu, Qi Zhang, Shiping Zhu
A biological system shows dynamical
shapes and tunable mechanical
states while working as an actuator and/or sensor. To simulate this,
we prepared semicrystalline dynamic ionogels (SDIGs) via a facile
process by introducing crystallized polymer domains for phase change
and amorphous domains for ionic liquid loading into ionogels. The
obtained SDIGs offered tunable mechanical properties upon temperature
switching with a change in modulus up to 2 orders of magnitude. It
also showed an excellent shape memory effect, shape programmability,
and melting accelerated conductivity increase. Enabled by ionic Joule
heating technique, the ionogel provided an electrical triggered actuating
process to mimic flower blossoming. Moreover, it was demonstrated
as a touch sensor with various working shape states, indicating cyclic
and green utilization. This work provides insights into the design
of semicrystalline electronics and is believed to promote the development
of biomimetic actuators and sensors.